U2 & Oxcart Programs 1954-74 pdf by Tony Cronin

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The U-2 and OXC\RT Program s, 1954 - 1974

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THE CENTRAL INTELLIGENCE AGENCY AND ...____, QVERH EAD ;( . RECONNAISSANCE

Gregory W. Pedl ow and Donald E. Welzenbach

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The Central Intelligence Agency 'I

and Overhead Reconnaissance: The U-2 and OXCART Programs, 1954-1974

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The Central Intelligence Agency and Overhead Reconnaissance: The U-2 and OXCART Programs, 1954-1974

Gregory W. Pedlow and Donald E. Welzenbach

History Staff Central Intelligence Agency Washington/ D.C.

1992

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+Chapter 1 Searching for a System The Need for High-Altitude Reconnaissance ............................................ 1 Early Postwar Aerial Reconnaissance ................................................... 2 New Approaches to Photoreconnaissance ........................................... 4 The Air Force Search for a New Reconnaissance Aircraft ............. .. 8 Lockheed CL-282 Supporters and the CIA. ........................................ 13 Scientists and Overhead Reconnaissance ................ ............................... 17 The BEACON HILL Report .................................................................... 17 Concern About the Danger of a Soviet Surprise Attack ................ 19 The Air Force Intelligence Systems Panel... ...................................... 21 British Overflight of Kapustin Yar. ...................................................... 23 The Intelligence Systems Panel and the CL-282 .............................. 24 The Technological Capabilities Panel ................................................. 26 Project Three Support for the lockheed CL-282 ... ........................... 27 A Meeting With the President ............................................................. 32 CIA and Air Force Agreement on the CL-282 .................................. 33

+Chapter 2 Developing the U-2

The Establishment of the U-2 Funding Arrangements for Project AQUATONE Major Design Features of the U-2 ........................................................... The Development of the Camera System for Testing the U-2 .............................................. ....... .......

for the U-2

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Hiring U-2 Pilots ......................................................................................... 73 Pilot Training ............................................................................................... 75 Final Tests of the U-2 ................................................................................ 76 Three Fatal Crashes in 1956 ..................................................................... 79 Coordination of Collection Requirements ............................................... 80 Preparations To Handle the Product of U-2 Missions ......................... 82 The Impact of the Air Force Project GENETRIX Balloons ................... 84 AQUA TONE Briefings for Selected Members of Congress ................. 88 The U-2 Cover

+Chapter 3 U-2 Operations in the Soviet Bloc and Middle East. 1956-1958 The Deployment of Detachment A to Lakenheath ............................... 94 The Move to Wiesbaden ........................................................................... 95 President Eisenhower's Attitude Toward Overflights ............................ 96 First Overflights of Eastern Europe ...................................................... 100 First U-2 Flights Over the Soviet Union ............................................... 104 Soviet Protest Note .................................................................................. 109 The End of the Bomber Gap.................................................................. 111 Tactical Intelligence From U-2s During the Suez Crisis .................... 112 Renewed Overflights of the Soviet Union ........................................... 122 Radar-Deceptive "Dirty Birds" ................................................................ 128 The New Detachment C .......................................................................... 133 Detachment B Flights From Pakistan .................................................... 135 The. Decline of Detachment A ................................................................ 139 142 143 Declining Overflight Concerns About Soviet Countermeasures Against the U-2 147 More Powerful Engines for the U路2 149 lebanon, 1958 152 the U路2 153

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+Chapter 4 The Final Overflights of the Soviet Union, 1959-1960

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Chapter 5 U-2 Operations After May 1960 U-2 Operations in Latin America ........................................................... 197 U·2 Support to the Bay of Pigs Invasion ........................................ 197 Aerial Refueling Capability for the U-2 ............................................ 198 U-2 Coverage During the Cuban Missile Crisis .............................. 199 U·2s Over South America .................................................................. 211 U-2 Operations in Asia ............................................................................ 211 Detachment C and the Indonesian Revolt of 1958 ........................ 211 China Offshore Islands Dispute of 1958 .......................................... 215 U-2 Support for DDP Operations in Tibet ....................................... 216 U-2Cs for Detachment C..................................................................... 217 U-2 Crash in Thailand ......................................................................... 219 End of Detachment C Operations ..................................................... 219 Detachment G Missions Over Laos and North Vietnam .............. 221 New Detachment on Taiwan ............................................................. 222 Use of Detachment H Aircraft by US Pilots ................................... 230 U-2s in India ......................................................................................... 231 Increasing Responsibilities, Inadequate Resources in Asia ........... 233 Advanced ECM Equipment for Detachment H................................ 237 ~""'n'~"'" Over PRC Nuclear Plants ....................... 238 240 The End of U·2 ............................. 242 Peripheral Missions by Detachment H ............................................. 244 Operation SCOPE SHIELD Over North Vietnam ............................. 246 Improvements in U-2 Technology .........................................................247 Modification of U·2s for Aircraft Carrier Deployment ................... 247 Use of Carrier-Based U·2 To Film a French Nuclear Test Site ... 249 251

Intended Successor:

OXCART. 1956-1968

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New Technologies Necessitated By OXCART's High Speed ............. 279 Designing the OXCART's Cameras ........................................................ 281 Pilots for OXCART .................................................................. 283 Selection of a Testing Site for the OXCART ....................................... 283 '"'l!""''·v of the First OXCART ................................................................ 286 Changes in the Project Management .................................................... 286 OXCART's First 288 Speed-Related Problems .......................................................................... 290 New Versions of the OXCART ............................................................... 291 The Question of Surfacing a Version of the OXCART ...................... 292 Additional Problems During Final 295 Discussions on the OXCART's Future Employment ........................... 297 First A-12 Deployment: Operation BLACK SHIELD ............................. 304 The End of the OXCART Program ........................................................ 307 Possible Successors to the OXCART..................................................... 312 Summary of the OXCART Program ...................................................... 313

+chapter 7 Conclusion U-2 Overflights of the Soviet Union ..................................................... 315 Participation of Allies ln the U-2 Program ........................................... 319 U·2s as Collectors of Tactical Intelligence ........................................... 319 Advances in 320 Cooperation With the Air Force ............................................................. 321 Impact of the Overhead Reconnaissance Program on the CIA. ....... 321

+Appendix A: Acronyms ............................................................................ 325 +Appendix B: Key Personnel

327

+Appendix C: Electronic Devices Carried by the U-2

335

0\l·etflioli'lts of the Soviet Union, ............................ 337 May 1960

+ AP•Pe•ndiix E: Unmanned Reconnaissance Pr11tee1:s + Bibliogr~tphy

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Warning Notice Intelligence Sources or Methods Involved (WNINTEL)

National Security Information Unauthorized Disclosure Subject co Criminal Sanctions

Dissemination Control Abbreviations NOFORN (NF) NOCONTRACT (NCJ

Not releasable to foreign nationals Not releasable to contractors or contractor/

PROPIN (PR) ORCON (OCl

Caution-proprietary information involved Dissemination and extraction of information

REL.

This information has been authorized for re-

WN!NTEL-Intelligence sources and meth-

FOREWORD This History Staff Monograph offers a comprehensive and authoritative history of the CIA's manned overhead reconnaissance program, which from 1954 to 1974 developed and operated two extraordinary aircraft, the U-2 and the A-12 OXCART. It describes not only the program's technological and bureaucratic aspects, but also irs political and international context. The manned reconnaissance program, along with other overhead systems that emerged from it, changed the ClA's work and structure in ways that were both revolutionary and permanent. The formation of the Directorate of Science and Technology in the 1960s. principally to develop and direct reconnaissance programs, is the most obvious legacy of the events recounted in this study. The authors tell an engrossing story. The struggle between the CIA and the US Air Force to control the U-2 and A-12 OXCART projects reveals how the manned reconnaissance program confronted problems that still beset successor programs today. The U-2 was an enormous technological success: its first flight over the USSR in July 1956 made it immediately the most important source of intelligence on the Soviet Union. Using it against the Soviet target it was designed for nevertheless produced a persistent tension between its program managers and the President. The program managers, eager for coverage. repeatedly urged the President to authorize frequent missions over the Soviet Union. President Eisenhower, from the outset doubtful of the prudence and propriety of invading Soviet airspace, only reluctantly allowed any overflights at all. After the Soviets shot down Francis Gary Powers' U-2 on I May 1960, President Eisenhower forbade any further U-2 flights over the USSR. Since the Agency must always assess a covert operation's potential payoff against the diplomatic or military cost if it fails. this account of the U-2's employment over the Soviet Union offers insights that go beyond overhead reconnaissance programs. Indeed, this study should be usefu l for a variety of purposes. [ t is the only history of this program based upon both full access to CIA records and extensive class ifi ed interviews of its partic ipants. The authors ha ve fo und records that were nearly irretrieva bly los t and have interv ie wed participants whose personal recollec tions gave informati on available nowhere else . Although the story of the manned

reconnaissance program offers no tidy model for imitation, it does reveal how resourceful managers coped with unprecedented technological challenges and their implications for intelligence and national policy. For this reason, the program's history provides profitable reading for intelligence professionals and policymakers today. Many people made important contributions to the production of this volume. [n the History Staff's preparation of the manuscript, Gerald Haines did the final revision, i · ······ ]again demon1 strated her high talent as a copy editor, and! · provided staunch secretarial support throughout. As usual, are Indebted to more members than we can name from the Publications, Design, and Cartography Centers in the Office of Current Production and Analytic Support, whose lively interest in the publication went far beyond the call of duty. Their exceptional professional skill and the masterly work of the Printing and Photography Group combined to create this handsome volume.

Donald E. Welzenbach, who began this study, and Gregory W. Pedlow. w_ho completed it, brought complementary strengths to this work. A veteran of C[A service since 1960, Mr. Welzenbach began research on this study in 1983, when he joined the DCI History Staff on a rotational assignment from the Directorate of Science and Technology. After tireless documentary research and extensive interviewing, he finished a draft manuscript of the history before returning to his directorate. fn early 1986, Gregory W. Pedlow, a new member of the DC[ History Staff, was assigned to complete the study. A Johns Hopkins University Ph.D. who has served as an Army intelligence officer and University of Nebraska professor of history, Dr. Pedlow undertook important research in several new areas, and reorganized, edited, and revised the entire manuscript before leaving CIA to become NATO Historian in late 1989. The final work, which has greatly benefited from both authors' contributions, is the CIA's own history of the world's first overhead reconnaissance program.

Kenneth McDonald

C[A April 1992

Staff

s~ PREFACE When the Central Intelligence Agency came into existence in 1947, no one foresaw that, in less than a decade, it would undertake a major program of overhead reconnaissance, whose principal purpose would be to fly over the Soviet Union . Traditionally, the military services had been responsible for overhead reconnaissance, and flights deep into unfriendly territory only took place during wartime. By the early 1950s, however, the United States had an urgent and growing need for strategic intelligence on the Soviet Union and its satellite states. At great risk. US Air Force and Navy aircraft had been conducting peripheral reconnaissance and shallow-penetration overflights, but these missions were paying a high price in lives lost and increased international tension. Furrhermore . many important areas of the Soviet Union lay beyond the range of existing reconnaissance aircraft. The Air Force had therefore begun to develop a high-altitude reconnaissance aircraft that would be able to conduct deep-penetration reconnaissance missions over the Soviet Union. President Dwight D. Eisenhower and his civilian scientific advisers feared that the loss of such an aircraft deep in Soviet terriwry could lead to war and therefore authorized the development of new nonmilitary aircraft, first the U-2 and later the A-12 OXCART. to be manned by civilians and operated only under cover and in the greatest secrecy. Primary responsibility for this new reconnaissance program was assigned to the Central Intelligence Agency. but the Air Force provided vital support. The Agency's manned overhead reconnaissance program lasted 20 years. It began with President Eisenhower's authorization of the U-2 project in late 1954 and ended with the transfer of the remaining Agency U-2s to the Air Force in 1974. During this period the CIA developed a successor to the U-2, the A- 12 OXCART, but this advanced aircraft saw little o perational use and the program was canceled in !968 after the Air Force dep loyed a fleet o f s imilar aircraft , a mil itary variant of the A- 12 called the SR-7!. Ne ither o f these aircraft remai ns secret today. A great deal of informat ion about the U-2 and its overfl ight program became known to the publ ic a fte r I May i 960, when the Soviet Union shot down a C IA U-2 and publicly tried its pilot. Francis Gary Powers. Four yea rs

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later, at press conferences in February and July 1964, President Lyndon B. Johnson revealed the existence of the OXCART-type of aircraft, although only in its military YF- l2A (interceptor) and SR-71 (strategic reconnaissance) versions. The two CfA reconnaissance aircraft have also been the subject of a number of books, beginning with David Wise's and Thomas B. Ross 's The U-2 Affair in 1962 and then Francis Gary Powers' memoirs, Operation Overflight, in 1970. Two recent books give many more details about the U-2 and OXCART aircraft: Michael Beschloss 's Mayday: Eisenhower, Khrushchev and the U-2 Affair (1986) and William Burrows's Deep Black: Space Espionage and National Securiry ( 1987). Although well written and generally accurate, these books suffer from their authors ' lack of access to classified official documentation. By drawing upon the considerable amount of formerly classified data on the U-2 now available to the public, Beschloss has provided an accurate and insightful depiction of the U-2 program in the context of the Eisenhower administration's overall foreign policy, but his book does contain errors and omissions on some aspects of the U-2 program. Burrows's broader work suffers more from the lack of classified documemation, particularly in the OXCART/SR-71 section, which concentrates on the Air Force aircraft because little information about the Agency 's aircraft has been officially declassified and released . Afte r the present study of the Agency 's overhead reconnaissance projects was completed. a new book on the U-2 was published in the United Kingdom. Chris Pocock's Dragon Lady: The History of the U-2 Spyplane is by far the most accurate unclassified account of the U-2 program. Pocock has been able to compensate for his lack of access to c lass ifie d docume nts by inte rvie wing man y former partici pants in the program, espec iall y former pilo ts. Pocock is also quite fam iliar with ai rcraft itse lf. fo r he had worked with Jay Miller on the latte r' s excellent technical study of the U-2: Lockheed U-2 ( 1983). The re has also been a classified officia l study of the U-2 and OXCA RT programs. [n 1969 the Directorate of Science and Technology published a History of the Office of Special Activities by

Helen Hill Kleyla and Robert D. O'Hern. This 16- vo!ume Top Secret Codeword study of the Agency's reconnaissance aircraft prov ides a wealth of technical and operational information on the two projects but does not attempt to place them in their historical context. Without examining the international situation and bureauc ratic pressures affecting the president and other key policymakers, howe ver, it is impossible to understand the dec is ions that began, carried out, and ended the CIA's reconnaissance aircraft projects. In preparing this study of CIA's overhead reconnaissance program, the authors drew on published sources, classified government documents, and interviews with key participants from the CIA, Air Force, contractors, scientific advisory commitrees. and the Eisenhower administration . The interviews were particularly important for piecing together the s!Ory of how the CIA became involved in overhead reconnaissance in the first place because Agency documentation on the prehistory of the U-2 project is very skerchy and there are no accurate published accounts. Research on the period of actual reconnaissance operations included the records of the Direcror of Cenrral Intelligence, the Office of Special Activities in the Directorate of Science and Technology, and the Intelligence Community Staff, along with documents from the Eisenhower Presidenrial Library in Abilene, Kansas, and additional interviews. Both authors are grateful for the assistance they have received from many indiv id uals who played important roles in the events they recount. Without their help a good deal of this story could never have become known . The assistance of Agency records management officers in the search for documents on the overhead reconnaissance program is also greatly appreciated. To ensure that this study of the Agency's involvement in overhead reconnaissance reaches the widest possible audience, the authors have kept it at the Secret classification level. As a result, some as pects of the overhead reco nnaissance program, particularl y those involving satellites and re lated interagency agreements, have had to be described in very general terms. The om ission of such information is not significant for th is book, which focuses on the Agency's recon naissance aircraft.

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Chapter 1

Searching for a System

THE NEED FOR HIGH-ALTITUDE RECONNAISSANCE For centuries, soldiers in wartime have sought the highest ground or structure in order to get a better view of the enemy. At first it was tall trees, then church steeples and bell towers. By the time of the American Civil War and the Franco-Prussian War of 1870-71, obseryers were using hot-air balloons to get up in the sky for a better view of the "other side of the hill." With the advent of dry film, it became possible to carry cameras into the sky to record the disposition of enemy troops and emplacements. Indeed, photoreconnaissance proved so valuable during World War I that in 1938 Gen. Werner von Fritsch, Commander in Chief of the German. Army, predicted: "The nation with the best aerial reconnaissance facilities will win the next war. By World War II, lenses, films, and cameras had undergone many improvements, as had the airplane, which could fly higher and faster than the primitive craft of World War L Now it was possible to use photoreconnaissance to obtain information about potential targets before a bombing raid and to assess the effectiveness of the bombing afterward.

for transcontinental •v•uw"'"· There was little

to for until after World War II. when the Iron Curtain rang down and cut off most of communication between the Bloc of nations and the rest of the world. nn,r1rn,aro1nr1v

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Chapter 1 2 By 1949 the Soviet Union and the states of Eastern had been effectively curtained off from the outside world, and the Soviet military carried out its planning, production, and deployment activities with the utmost secrecy. All Soviet strategic capabilitiesbomber forces. ballistic missiles, submarine and nuclear weapons plants-were concealed from outside observation. The Soviet air defense system, a prime consideration in determining US retaliatory policies, was also largely an unknown faccor. Tight security along the Soviet Bloc borders curtailed the movement of human sources. In addition, the Soviet Union made its conventional means of communication-telephone, telegraph, and radio-telephone-more secure, thereby greatly reducing the intelligence available from these sources. The stringent security measures imposed by the Communist Bloc nations effectively blunted traditional methods for gathering intelligence: secret agents using covert means to communicate intelligence, travelers to and from target areas who could be asked to keep their eyes open and report their observations later, wiretaps and other eavesdropping methods, and postal intercepts. (ndeed. the entire panoply of intelligence tradecraft seemed ineffective against the Soviet Bloc, and no other methods were available.

Postwar Aerial Reconnaissance Although at the end of World War [[ the United States had captured large quantities of German photos and documents on the Soviet this material was rapidly becoming outdated. The main source of current intelligence on the Soviet Union's military installations was nt;>rrrtn;>I'U\n of prisoners of war returning from Soviet captivity. To obtain information about Soviet scientific progress, the intelligence several programs to debrief German scientists who had been taken to the Union after the end of the war but allowed to leave.

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Interrogation of returning Germans offered only fragmentary information, and this source could nO( be expected to last much longer. As a result in the late 1940s. the US Air Force and Navy began trying to obtain aerial photography of the Soviet Union. The main Air Force effort involved Boeing RB-47 aircraft (the reconnaissance version of the B-47 jet-propelled medium bomber) equipped with cameras and electronic "ferret" equipment that enabled aircrews to detect tracking by Soviet radars. At that time the Soviet Union had not yet completely ringed its borders with radars, and much of the interior also lacked radar coverage. Thus, when the RB-47s found a gap in the air-warning network, they would dart inland to take photographs of any accessible targets. These "penetration photography" tlights (called SENSINT-sensitive intelligence-missions) occurred along the northern and Pacific coasts of Russia. One RB-47 aircraft even managed to fly 450 miles inland and photograph the city of Igarka in Siberia. Such intrusions brought protests from Moscow but no Soviet military response.' In 1950 there was a major change in Soviet policy. Air defense units became very aggressive in defending their airspace, attacking all aircraft that came near the borders of the Soviet Union. On 8 April 1950, Soviet fighters shot down a US Navy Privateer patrol aircraft over the Baltic Sea. Following the outbreak of the Korean war in June 1950, the Soviet Union extended its "severe air defense policy•· to the Far East In the autumn of 195 I. Soviet aircraft downed a twin-engine US Navy Neptune bomber near Vladivostok. An RB-29 lost in the Sea of Japan on 13 June 1952 was probably also a victim of Soviet fighters. The United States was not the only country affected by the new aggressive Soviet air defense policy; Britain and Turkey • also attacks on rheir

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Chapter 1

The Soviet Union's air defense policy became even more aggressive in August 1952, when its reconnaissance aircraft began violating Japanese airspace over Hokkaido, the northernmost Japanese home island. Two months later, on 7 October 1952. Soviet fighter aircraft stalked and shot down a US RB-29 flying over Hokkaido. Aerial reconnaissance of the Soviet Union and surrounding areas had become a very dangerous business. Despite the growing risks associated with aerial reconnaissance of the Soviet Bloc, senior US officials strongly believed that such missions were necessary. The lack of information about the Soviet Union, coupled with the perception that it was an aggressive nation determined to expand its borders-a perception that had been gready strengthened by the Soviet-backed North Korean invasion of South Korea in June 1950--increased US determination to obtain information about Soviet inÂŁentions and capabilities and thus reduce the danger of being surprised by a Soviet attack.

New Approaches to Photoreconnaissance While existing Navy and Air Force aircraft were flying their risky reconnaissance missions over the Soviet Union. the United States began planning for a more systematic and less dangerous approach using new technology. One of the leading advocates of the need for new, high-altitude reconnaissance aircraft was Richard S. Leghorn, a Massachusetts Institute of Technology graduate and employee of Eastman Kodak who had commanded the Army Air Forces' 67th Reconnaissance Group in Europe during World War II. After the war he returned to Kodak but maintained his interest in photoreconnaissance. Leghorn strongly believed in the need for what he called pre-D-day that reconnaissance of a potential enemy before the outbreak of actual in contrast to combat reconnaissance in wartime. In papers in 1946 and that the United States needed to

Reconnaissance Command at

the Korean war into effecc Recalled to became the of the Air 1951

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Chapt~ 5

In Leghorn 's view, altitude was the key to success for overhead reconnaissance. Since the best Soviet interceptor at that time, the 6 MIG-17, had to struggle to reach 45,000 feet, Leghorn reasoned that an aircraft that could exceed 60,000 feet would be safe from Soviet fighters . Recognizing that the fastest way to produce a high-altitude reconnaissance aircraft was to modify an existing aircraft, he began looking for the highest flying aircraft available in the Free World. This search soon led him to a British twin-engine medium bomberthe Canberra-built by the English Electric Company. The Canberra had made its first flight in May 1949. Its speed of 469 knots (870 kilometers per hour) and its service ceiling of 48,000 feet made the Canberra a natural choice for high-altitude reconnaissance work. The Royal Air Force quickly developed a reconnaissance version of the Canberra, the PR3 (the PR stood for photoreconnaissance), which be7 gan flying in March 1950. At Leghorn's insistence, the Wright Air Development Command invited English Electric representacives to Dayton in the summer of 1951 to help find ways to make the Canberra fly even higher. By this time the Air Force had already adopted the bomber version of the Canberra, which the Glenn L. Marcin Aircraft Company was to produce under license as the B-57 medium bomber. Leghorn and his English Electric colleagues designed a new Canberra configuration with very long high-lift wings, new Rolls-Royce Avon-109 engines, a solitary pilot, and an airframe that was stressed to less than the standard military specifications. Leghorn calculated that a Canberra so equipped might reach 63,000 feet early in a long mission and as high as 67,000 feet as the declining fuel supply lightened the aircraft. He believed that such a modified Canberra could penetrate the Soviet Union and China for a radius of 800 miles from bases around their periphery and photo~ graph up to 85 percent of the intelligence targets in those countries. Leghorn persuaded his superiors to submi t his suggestion to the Pentagon for funding. He had not, however, cleared his idea with the Air Re earch and Development Command, whose reconnaissance

' 13,7 16 meters. To avo id giving a false impression of extremely precise measurements. original English measuring system figures in round numbers have not b<:en converted to the metric system. To convert feet 10 meters. multiply by 0.3048. To convc:rt airspeed.~ in knotS (nautical miles per hour) to kilometers per hour. mul!iply by 1.85. ' Dic k van der Aart, Aerial EspioTtage. Secret fntelligen,路e Fl(1Jhls by East and West (Shrewsbury. Eng!at~d: Airli fe Publishing. 1985). p.

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Richard S. Leghorn

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RAF Canberra Mark-PR3

division in Baltimore; headed by Lt. CoL Joseph J. Pellegrini. had to approve all new reconnai ssance aircraft designs. Pellegrini's unit reviewed Leghorn 's design and ordered extensive modifications. Accordingto Leghorn, Pellegrini was not interested in a special~ purpose aircraft that was only suitable for covert peacetime reconnaissance mi ssions, fo r he believed that all Air Force reconnaissance aircraft should be capable of operating under wartime conditions. Pellegrini therefore insisted that Leghorn 's design meet the specifications for combat aircraft. which required heavily stressed airframes. armor plate, and other apparatus that made an aircraft too heavy to reach the higher altitudes necessary for safe overflights of the Soviet Bloc. The final result of Leghorn 's concept after its alteration by Peftegrini's staff was the RB-570 in 1955, whose maxi mum altitude

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was only 64,000 feet Meanwhile Leghorn, frustrated by the rejection of his original concept, had transferred to the Pentagon in early 1952 to work for Col. Bernard A. Schriever, Assistant for Development Planning to the Air Force's Deputy Chief of Staff for Development.' In his new position Leghorn became responsible for planning the Air Force's reconnaissance needs for the next decade. He worked closely with Charles F. (Bud) Wienberg-a colleague who had followed him from Wright Field-and Eugene P. Kiefer, a Notre Dame-educated aeronautical engineer who had designed reconnaissance aircraft at the Wright Air Development Center during World War [L All three of these reconnaissance experts believed that the Air Force should emphasize high-altitude phororeconnaissance. Underlying their advocacy of high-altitude photoreconnaissance was the belief that Soviet radars would not be able to track aircraft flying above 65,000 feet This assumption was based on the fact that the Soviet Union used American-built radar sets that had been supplied under Lend-Lease during World War II. Although the SCR-584 (Signal Corps Radio) target-tracking radar could track targets up to 90,000 feet. its high power consumption burned out a key component quickly, so this radar was normally not turned on until an early warning radar had detected a target. The SCR-270 early warning radar could be left on for much longer periods and had a greater horizontal range (approximately 120 miles) but was limited by the curvature of the earth to a maximum altitude of 40,000 feet As a result, Leghorn, Kiefer, and Wienberg believed that an aircraft that could ascend to 65,000 feet before entering an area being swept by the early warning radar would go undetected, because the target-tracking radars would not be activated.

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Seer~ Chap~ 8

The Air Force Search for a New Reconnaissance Aircraft With interest in high-altitude reconnaissance growing. several Air Force agencies began to develop an aircraft to conduct such missions. In September 1952, the Air Research and Development Command gave the Martin Aircraft Company a contract to examine the high-altitude potential of the B-57 by modifying a single aircraft to give it long, high-lift wings and the American version of the new Rolls-Royce Avon-109 engine. These were the modifications that Richard Leghorn had suggested during the previous year.'" At about the same time, another Air Force office, the Wright Air Development Command (WADC) in Dayton, Ohio, was also examining ways to achieve sustained flight at high altitudes. Working with two German aeronautical experts-Woldemar Voigt and Richard Vogt-who had come to the United States after World War II, Air Force Maj. John Seaberg advocated the development of a new aircraft that would combine the high-altitude performance of the latest turbojet engines with high-efficiency wings in order to reach ultrahigh altitudes. Seaberg, an aeronautical engineer for the Chance Vought Corporation until his recall to active duty during the Korean war, was serving as assistant chief of the New Developments Office of WADC's Bombardment Branch. By March 1953, Seaberg had expanded his ideas for a high-altitude aircraft into a complete request for proposal for "an aircraft weapon system having an operational radius of I ,500 nm (nautical miles] and capable of conducting pre- and post-strike reconnaissance missions during daylight, good visibility conditions." The requirement stated that such an aircraft must have an optimum subsonic cruise speed at altitudes of 70,000 feet or higher over the carry a of lOO to 700 of and have one.

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produce a better aircraft more quickly. In July 1953, the Bell Aircraft Corporation of Buffalo, New York, and the Fairchild Engine and Maryland, study conAirplane Corporation of tracts to develop an entirely new high-altitude reconnaissance aircraft. In the L. Martin of Baltimore was asked to examine the possibility of improving the already exceptional high-altitude performance of the B-57 Canberra. By January 1954 all three firms had submitted their proposals. Fairchild's entry was a single-engine plane known as M-195, which had a maximum altitude potential of 67,200 Bell's was a twin-engine craft called the Model 67 (later the X-16), which had a maximum altitude of 69,500 and Martin's design was a version of the B-57 called the Model which was to cruise at 64,000 In March and other engineers at Wright Field, having evaluated the three contending designs, recommended the adoption of both the Martin and Bell proposals. They considered Martin's version of the B-57 an interim project that could be completed and deployed rapidly while the more advanced concept from Bell was still being developed. Air Force headquarters soon approved Martin's proposal to modify" the B-57 and was very much interested in the Bell design. But word of the competition for a new reconnaissance airplane had reached another aircraft manufacturer, the Lockheed Aircraft Corporation, which submitted an unsolicited design. Lockheed had become aware of the reconnaissance aircraft in the fall of 1953. John H. (Jack) who had to become the assistant director recently retired from the Air Lockheed's Advanced was in the Pentagon ""'"'""'~" and an old

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Designs for the Air Force competition for a high-altitude reconnaissance aircraft

Lockheed also submit a design . Carter noted that the proposed aircraft would have to reach altitudes of between 65, 000 and 70,000 feet and correctly forecast, "If extreme altitude performance can be realized in a practical aircraft at speeds in the vicinity of Mach 0 .8, it should be capable of avoiding virtually all Russian defenses until about 1960 ... Carter added, "To achieve these characteristics in an aircraft which will have a reasonably useful operational life during the period before 1960 will, of course, require very strenuous efforts and extraordinary procedures. as well as nonstandard design philosophy." Some of the "nonstandard" design cnaracteristics suggested by Carter were the elimination of landing gear, the disregard of military specifications. and the use of very low load factors . Carter's memorandum closed with a warning that time was of the essence : "In order that this special aircraft can have a reasonably long and useful life. it is obviou s that its development must be greatly accelerated beyond that considered normal. .. 1.â&#x20AC;˘ Lockheed's senior official s approved Carter's proposal , and earl y in 195-f the corporation's best aircraft designer-Clarence L. ( Kelly) Johnson-began working on the project, then kno wn as the C L-282 but late r to become fa mous under its Air Force designatorthe U-2. Already o ne of the world 's leading aeronautical engi neers, Kelly Joh nson had many successful military and civi lian des ign s to his c redit. incl uding the P-38 , P-80, F- 104. and Constellation. Johnson qu ickly came up with a radical design based upon the fu se lage o f the F- l 04 jet fi gh ter bur incorporating a hi gh-aspect-ratio sai lp lane wing . To save we igh t and thereby increase the ai rc raft 's al titude, John son deci ded to stress the airfra me to onl y 2.5 units of

'' \!ilkr. Lodh.:.:J U-2 . p. t~.

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gravity (g's) instead of the milirary specification strength of 5.33 g's. For the power plant he selected the General Electric 173/GE-3 nonafterburning turbojet engine with 9,300 pounds of thrust (this was the same engine he had chosen for the F-1 04, which had been the basis for the U-2 design).'" Many of the CL-282's design features were adapted from gliders. Thus, the wings and tail were detachable. Instead of a conventional landing gear. Johnson proposed using two skis and a reinforced belly rib for landing-a common sailplane technique-and a jettisonable wheeled dolly for takeoff. Other features included an unpressurized cockpit and a IS-cubic-foot payload area that could accommodate 600 pounds of sensors. The CL-282's maximum altitude would be just over 70,000 feet with a 2, 000-mile range. Essemially, Kelly Johnson had designed a jet-propelled glider.'' Early in March 195-+. Kelly Johnson submitted the CL-282 design to Brig. Gen. Bernard A. Schriever's Office of Development Planning. Eugene Kiefer and Bud Wienberg studied the design and recommended it to General Schriever, who then asked Lockheed to submit a specific proposal. In early April, Kelly Johnsonpresented a full description of the CL-282 and a proposal for the construction and maintenance of 30 aircraft to a group of senior Pentagon officials that included Schriever's superior. Lt. Gen. Donald L. Putt. Deputy Chief of Staff for Development, and Trevor N. Gardner. Special Assistant for Research and Development to the Secretary of the Air Force. Afterward Kelly Johnson noted that the civilian officials were very much interested in his design but the generals were not.'h The CL-282 design was also presented to the commander of the Strategic Air Command (SAC), Gen. Curtis E. LeMay. in April by Kiefer. Bud Wienberg. and Burton Klein from the Office of

Kelly Johnson

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The Lockheed CL-282

Development Planning. According to Wienberg. General LeMay stood up halfway through the briefing. took his cigar out of his mouth, and told the briefers that, if he wanted high-altitude photographs. he would put cameras in his B-36 bombers and added that he was not interested in a plane that had no wheels or guns. The general then left 11 the room. remarking that the whole business was a waste of his time. Meanwhile, the CL-282 design proceeded through the Air Force development channels and reached Major Seaberg at the Wright Air Development Command in mid-May. Seaberg and his colleagues carefully evaluated the Lockheed submission and finally rejected it in early June. One of their main reasons for doing so was Kelly Johnson's choice of the unproven General Electric 173 engine. The engineers at Wright Field considered the Pratt and Whitney J57 to be the most and the from Martin, and The absence of conventional the Lockheed Johnson's submission

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World War II in multiengine bombers. In addition, aerial photography experts in the late 1940s and early 1950s emphasized focal length as the primary factor in reconnaissance photography and, therefore, preferred large aircraft capable of accommodating long focal-length cameras. This preference reached an extreme in the early 1950s with the development of the cumbersome 240-inch Boston camera, a device so large that the YC-97 Boeing Stracocruiser that carried it had to be partially disassembled before the camera could be installed. Finally, there was the feeling shared by many Air Force officers that two engines are always better than one because, if one fails. there is a spare to get the aircraft back to base. In reality. however, aviation records show that single-engine aircraft have always been more reliable than multiengine planes. Furthermore, a high-altitude reconnaissance aircraft deep in enemy territory would have little chance of returning if one of the engines failed, forcing the aircraft to descend.'') On 7 June 1954, Kelly Johnson received a letter from the Air Force rejecting the CL-282 proposal because it had only one engine and was too unusual and because the Air Force was already committed to the modification of the Martin B-57.::t' By this time, the Air Force had also selected the Bell X-16; the formal contract calling for 28 aircraft was signed in September. Despite the Air Force's selection of the X-16, Lockheed continued to work on the CL-282 and began seeking new sources of support for the aircraft.

lockheed CL-282 Supporters and the CIA Although the Air Force's uniformed hierarchy had decided in favor of the Bell and Martin aircraft, some high-level civilian officials continued to favor the Lockheed The most prominent proponem of the Lockheed proposal was Trevor Gardner, Assistant for Research and to Air Force Harold E. Talbott Gardner had many in west coast aeronautical circles because he had headed the

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design showed the most promise for reconnaissance of the Soviet Union. This belief was shared by Gardner's special assistant. Frederick Ayer. Jr.. and Garrison Norton. an adviser to Secretary Talbott~ 路

According to Norton, Gardner tried to inrerest SAC commander LeMay in the Lockheed aircraft because Gardner envisioned it pri marily as a collector of strategic. rather than tactical. intelligence. But General LeMay had already shown that he was not interested in an unarmed aircraft. Gardner. Ayer, and Norton then decided to seek CIA support for the high-Hying aircraft. At that time the Agency's official involvement in overhead reconnaissance was limited co advising the Air Force on the problems of launching large camera-carrying bal loons for reconnaissance flights over hostile territory (for the details of this program. see chapter 2). The Chief of the Operations Staff in the Office of Scientific Intelligence. Philip G. Strong. however. served on several Air Force advisory boards and kept himself well informed on developmenrs in reconnaissance aircraft.!! Trevor Gardner

Gardner, Norton. and Aycr met with Strong in the Pemagon on 12 May 1954. six days before the Wrighr Air Development Command began w evaluate the Lockheed proposal. Gardner described Kelly Johnson 's proposal and showed the drawings to Strong . After chis meeting. Strong summarized his impressions of the Air Force's search for a high-altitude reconnaissance aircraft:

Proposals for special reconnaissance aircraft hm路e been received in the Air Staff from Lockheed. Fairchild. and Be/!. .. . The Lockheed proposal is considered to be the best. It has been given the type designation of CL-282 and in many respects is a j et-powered glider based essentially on the Lockheed Day Fighter XF-104. It is primarily subson ic bw can attain transonic speeds over the target with a consequent loss of range. With an altitude of 73,000 feet over the target it has a combat radius of 1,400 nautical miles. ... The CL-282 can be manufacwred

'' Garrison Norton. interview by Don;~IJ E. W.:llt:nbach. tape recording. \1/ashi ngton. DC. May 1983 ($): Mic hae l R. Bt:schloss. ,'..tuvday: Eist:rtho~>路 er. Khrushchev and the U-2 A;fuir (N<!w York: Harper & Row. 1986 1. p. 79. ~J

" Strong wa.s a .:olond in tho:: :'>1arinc Corp.~ Reserve and often used th:lt titlt: even though h<! was not on active duty. He later adv anced to the rank o f brigadi.:r g.:neral in the reserve For Stron g路~ contaCl'i with senior Air Fnrce officials concerning rhe CL -:!8:!. see tht: Sorton interv iew (S).

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mainly with XF-104 jigs and designs. .. . The prototype of £his plane can be produced within a year from the dare of order. Five planes could be deli vered f or operations within two years. The Bell proposal is a more com·enrionaf aircraft having normal landing gear. As a result. its mar:imum altitude over target is 69.500 feet and the speed and range are not as good as the Lockheed CL-282. -'3 Gardner's enthusiasm for the CL-282 had given Strong the false impression that most Air Force officials supponed the Lockheed design . In reality, the Air Force's uniformed hierarchy was in the process of choosing the modified version of the Martin B-57 and the new Bell X-16 to meet future reconnaissance needs. During their meeting with Strong, Trevor Gardner, Frederick Ayer, and Garrison Norton explained that they favored the CL-282 because it gave promise of tlying higher than the other designs and because at maximum altitude its smalkr radar cross section might make it invisible to existing Soviet radars. The three officials asked Strong if the CIA would be interested in such an aircraft. Strong promised to talk to the Director of Central Intelligence's newly hired Special Assistant for Planning and Coordination. Richard M. Bissell. Jr.. about possible Agency interest in the CL-282. '" Richard Bissell had already had an active and varied career before he joined the CIA. A graduate of Groton and Yale, Bissell studied at the London School of Economics for a year and then completed a doctorate at Yale in 1939. He taught economics, first at Yale and then from 1942 at the Mass achusetts Institute o f Technology (MlT), where he became a full professor in 1948. Durin g World War ll . Bissell had managed American shipping as exec uti ve office r of the Combined S hipping Adj ustment Board. After the war. he served as de puty di rector of the Marsha ll Plan from 1948 unci! the e nd of 195 1, w he n he became a staff membe r of the Ford Foundation . His fi rst association with the Agency came in late 1953, when he undertoo k a contract of possible responses the United

'' Phil ip G. Strong, :vtemorundum for the Record. "Special Aircra ft fo r P.:nt: tration Pholo Reconnaissance," 12 May 195-1. OSI reconls (now in OSWR). job SOR-Ol -11-1. bm I { $ ) :• Karl H. Weber. The Offiu of Scientific lnte/ligena. /9-19 -68, Director:ue of Science and T~chnology Historical Senes OSI-1 !C!A: DS&T. 1972). vol. I. wb A. pp. 16--17 (TS COOeWI)f d)

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Strong

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16 States might use against the Soviet Bloc in the event of another uprising such as the East Berlin riots of June 1953. Bissell quickly concluded that there was not much hope for clandestine operations against Bloc nations. As he remarked later: " [ know I emerged from that exercise feeling that very little could be done." This belief would later make Bissell a leading advocate of technical rather than human means of intelligence collection .~ Bissell joined the Agency in late January 1954 and soon became involved in coordination for the operation aimed at overthrowing Guatemalan President Jacobo Arbenz. He was. therefore very preoccupied when Philip Strong approached him in mid-May 1954 with the concept of the proposed spyplane from Lockheed. Bisse ll said that the idea had merit and told Strong to get some topflight scientists to advi se on the macter. Afterward he returned to the final planning for the Guatemalan operation and promptly forgot about the CL-282. ~ 6

Richard M. Bissell, Jr.

Meanwhile, Strong went about drumming up support for high-altitude overflight. In May 1954 he persuaded DCI Allen W. Dulles to ask the Air Force to take the initiative in gaining approval for an overflight of the Soviet guided-missile test range at Kapustin Yar. Dulles's memorandum did not mention the CL-282 or any of the other proposed high-altitude aircraft. ClA and Air Force officials met on several occasions to explore the overflight proposal. which the Air 17 Force finally turned down in October 1954. Although Allen Dulles was willing to support an Air Force overflight of the Soviet Union, he was not enthusiastic about the CIA undertaking such a project. Few details about Dulles's precise attiiUde toward the proposed Lockheed reconnaissance aircraft are available , but many who knew him believe that he did not want the ClA to become in volved in projects that belonged to the mil itary, and the Lockheed CL-282 had been designed for an Air Force requirement.

" Thomas Powers. The Man Who Kepr the Si!crers: Richard He lms and the CIA (New York: Alfred A. Knopf. 1979). p. 79 ; Beschloss, Mayday. pp. 86-89. " Memo randum for H. Marshall ChadwelL Assiscant Director/Scie ntific Intelligence , from Chief. Support Staff. OS I. " Rev iew of OSA Activities Concerned with Scientific and Technic::.! Collect io n Tt!ch niques ," 13 M:~ y 1955 . p. 6. OS! (OSWR) records. job 80R-01424. box I (5): Richard M . Bissell. Jr.. interview by Donald E. Welun bach. ta pe recordi ng. Fannington, Con necticut. 8 November 1984 ($) . " Memorandum for Richard M. Bissell. Special Assistant to the Di rector for Planning and Coordinati on. from Philip G. Strong. Chief. Ope rations Staff. OSI. "Overflight of Kapustin Yat." 15 Ocwber 19:54, OS I (OS WR ) records. job &OR-01424. bo~ I (TS. downgraded to S).

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Moreover, high-altitude reconnai ssance of the So viet Uni on di d not tit well into Allen Dulles's perception of the proper role of an intelligence agency. He tended to favor the classical form of espionage. 2 which relied on agents rather than technology. " At this point. the summer of 1954. Lockheed 's CL-282 proposal still lacked official support. Although the design had strong backers among some Air Force civilians and CIA officials, the key decisionmakers at both- Air Force and CIA remained unconvinced . To make Kelly Johnson's revolutionary design a reality, one additional source of support was necessary: prominent scientists serving on government advisory boards.

SCIENTISTS AND OVERHEAD RECONNAISSANCE Scientists and engineers from universities and private industry had played a major role in advising the government on technical matters during World War II. At the end of the war. most of the scientific advisory boards were disbanded, but within a few years the growing ten.sions of the Cold War again led government agencies to seek scientific advice and assistance . In 1947 the Air Force established a Scientific Advisory Board, which met periodically to discuss topics of current interest and advise the Air Force on the potential usefulness of new technologies. The following year the Office of Defense Mobilization established the Scientific Advisory Committee. but the Truman administration made little use of this new advisory body."'

OCt Allen W. Dulles

The BEACON HILL Report In 1951 the Air Force sought even more assistance from scientists because the Strategic Air Command's reques ts for in formati o n abou t targets behind the [ron Curtain could not be fill ed. To look for new ways of conducting reconnaissance against the Soviet Bloc, the Air Force's Deputy Chief of Sta ff for Deve lopment, Maj . Gen. Gordon P. Saville. added 15 reco nnaissance ex perts to an existing projec t on ai r

'' Powers. Man Who Kept the Secretr. pp. I03-1 04: Edwin H. Land. imerv io::w by Donald E. WeiT.enbach. tape recording. Cambridge. Ma.,sachusetts. I7 and :!0 September llJ:i-1 (TS Codeword): Robe11 Amory. Jr.. interview by Donald E. W.:lzcnbach anJ Gregory W. Pedlow. Washington . DC. 2:? Apri l 1987 (S ). "' For more in formation on the Ai r Force 's use of sci<!n tists see Thomas A. Srurm. Tlte USAF Sciennjic Advisilty Board: Its First Twenty Years. 19-l-l-19fN (WJshing lon. DC: USA F Hi swri..:al Office. 1967) (Ul.

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defense known as Project LINCOLN, then under way at the Massachusetts Institute of Technology. By the end of the year, these experts had assembled in Boston to begin their research. Their headquarters was located over a secretarial school on Beacon Hill, which soon became the codename for the reconnaissance project The consultants were called the BEACON HILL Study Group. The study group's chairman was Kodak physicist Carl F. P. Overhage, and irs members included James G. Baker and Edward M. Purcell from Harvard; Saville Davis from the Christian Science Monitor; Allen F. Donovan from the Cornell Aeronautical Laboratory; Peter C. Goldmark from Columbia Broadcasting System Laboratories; Edwin H. Land, founder of the Polaroid Corporation; Stewart E. Miller of Bell Laboratories; Richard S. Perkin of the Perkin-Elmer Company; and Louis N. Ridenour of Ridenour Associates, Inc. The Wright Air Development Command sent Lt. CoL Richard Leghorn to serve as its liaison officer.JO During January and February 1952. the BEACON HILL Study Group traveled every weekend to various airbases, laboratories. and firms for briefings on the latest technology and projects. The panel members were particularly interested in new approaches to aerial reconnaissance, such as photography from high-flying aircraft and camera-carrying balloons. One of the more unusual (albeit unsuccessful) proposals examined by the panel was an "invisible" dirigible. This was to be a giant, almost flat-shaped airship with a blue-tinted. nonreflective coating; it would cruise at an altitude of 90,000 feet along the borders of the Soviet Union at very slow speeds while using 31 a large lens to photograph targets of imerest. After completing these at the end of February 1952. the BEACON HILL Study Group returned to MIT. where the bers the next three months mrHâ&#x20AC;˘râ&#x20AC;˘rt

ProJeCt LINCOLN. HILL Reconnaissance, Massachusetts Institute downgraded to C).

Problems fmelligence Technology, !5 June 1952, pp. xi: app.

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document on 15 June 1952. the BEACON HILL Report advocated radical approaches to obtain the information needed for national intelligence estimates. Its 14 chapters covered radar, radio, and photographic surveillance: examined the use of passive infrared and microwave reconnaissance; and discussed the development of advanced reconnaissance vehicles. One of the report's key recommendations called for the development of high-altitude reconnaissance aircraft:

We have reached a period i11 history when our peacetime knowledge of the capabilities, activities and dispositions of a potentiall_v hostile nation is such as to demand that we supplement it 1virh the maximum amount of information obtainable through aerial reconnaissance. To m路oid political involvements. such aerial reconnaissance must be conducted either from l'ehicles flying in friendly airspace, or-a decision on this point permitting-from vehicles whose performance is such that they can operate in Soviet airspace with greatly reduced chances of detection or interception. tJ C~mcern

About the Danger of a Soviet Surprise Attack

The Air Force did not begin to implement the ideas of the BEACON HILL Report until the summer of 1953. By this time interest in reconnaissance had increased after Dwight D. Eisenhower became President in January I 953 and soon expressed his dissatisfaction with the quality of the intelligence estimates of Soviet strategic capabilities and the paucity of reconnaissance on the Soviet Bloc." To President Eisenhower and many other US political and military leaders, the Soviet Union was a dangerous opponent that apto be toward a position of military parity alarming was Soviet progress in the area of nuclear weapons. [n the late summer the Soviet Union had detonated bomb three

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scientists. Thus, new and extremely powerful weapons were coming into the hands of a government whose actions greatly disturbed the leaders of the West Only two months before the successful hydrogen bomb test, Soviet troops had crushed an uprising in East Berlin. And. at the United Nations, the Soviet Bloc seemed bent on causing dissension between Western Europe and the United States and between the developed and undeveloped nations. This aggressive Soviet foreign policy. combined with advances in nuclear weapons. led officials such as Secretary of State John Foster Dulles to see the Soviet Union as a menace to peace and world order. The Soviet Union's growing military strength soon became a threat not just to US forces overseas but to the continental United States itself. In the spring of 1953. a top secret RAND study pointed out the vulnerability of the SAC's US bases to a surprise attack by Soviet long-range bombers .... Concern about the danger of a Soviet attack on the continental United States grew after an American military auache sighted a new Soviet intercontinental bomber at Ramenskoye airfield. south of Moscow, in 1953. The new bomber was the Myasishchev-4, later designated Bison by NATO. Powered by jet engines rather than the turboprops of Russia's other long-range bombers. the Bison appeared to be the Soviet equivalent of the US B-52. which was only then going into production. Pictures of the Bison taken at the Moscow May Day air show in 1954 had an enormous impact on the US intelligence community. Unlike several other Soviet postwar aircraft. the Bison was not a derivative of US or British designs but represented a native Soviet design capability that surprised US intelligence ex~ perts. This new long-range jet bomber. along with the Soviet Union's numbers of older propeller and turboprop bombers. seemed to threat to the United and. in the summer of

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Soviet Myasishchev-4 bomber {the Bison)

The Air Force Intelligence Systems Panel Even before the publication of photographs of the Bison raised fears that the Soviet bomber force might eventually surpass that of the United States, the Air Force had already established a new advisory body to look for ways to implement the main recommendation of the BEACON HILL Report-the construction of high-flying aircraft and high-acuity cameras. Created in July 1953. the Intelligence Systems Panel (ISP) included several experts from the BEACON HILL Study Group : Land, Overhage, Donovan, and Miller. At the request of the Air Force, the CIA also participated in the panel, represented by Edward L. Allen of the Office of Research and Reports (ORR) and Philip Strong of the Office o f Scien tific Intelligence (OSI).lh The chairman o f the new panel was Dr. James G . Baker. a researc h associate at the Harvard College Observatory. Baker had been involved in aerial reconnai ssance since 1940. when he first adv ised the Army Air Corps on ways to improve its lenses . He then es tabli shed a fu ll-scale optical laboratory at Harvard-the Harvard University Optical Research La boratory-to produce high-q uality

" ;\kmomndum for Rt>ben Amory. Jr.. De puty Director. lnrc lligem.:e from Edw ard l. Allen. Chief. Economic Research. ORR and Phi lip G. Strung. Chief, Oper<~tion~ Staff. OS!. "Meetin g of rhe lnt~ lligence Sysr<:ms Panel o f th<: Scientific Advi sory Board. USAF:路 26 Augus! 1953. OS! IOSWRJ n:cords. job l!OR路OI~2 ~ . bolt I ($).

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22 lenses. Since the university did not wish to continue manufacturing cameras and lenses after the end of the war, the optical laboratory moved to Boston University, which agreed to sponsor the effort as long as the Air Force would fund it. Baker decided to remain at Harvard, so his assistant, Dr. Duncan E. Macdonald, became the new head of what was now called the Boston University Optical Research Laboratory (BUORL). Baker's association with the Air Force did not end with the transfer of the optical laboratory to Boston University, because he continued to design lenses to be used in photoreconnaisn sance. The lSP tlrst met aÂŁ Boston University on 3 August 1953. To provide background on the poor state of US knowledge of the Soviet Union, Philip Strong informed the orher panel members that the best intelligence then available on the Soviet Union's interior was photography taken by the Gem1an Luftwaffe during World War [f. Since the German photography covered only the Soviet Union west of the Urals, primarily west of the Volga River. many vital regions were not included. The ISP would, therefore, have to look for ways to provide up-to-date photography of all of the Soviet Union. Several Air Force agencies then briefed the panel members on the latest developments and proposed future projects in the area of aerial reconnaissance. including new cameras. reconnaissance balloons. and even satellites. Among the Air Force reconnaissance projects discussed were multiple sensors for use in existing aircraft such as the RB-47, RB-52, and RB-58; Project FICON-an acronym for "fighter conversion"-for adapting a giant, I 0-engine B-36 bomber to enable it to launch and retrieve a Republic RF-84F Thunderflash reconnaissance aircraft; reconnaissance versions of the Navajo and Snark missiles: the high-altitude balloon program, which would be ready to go into operation by the summer of I and the search for a new reconnaisaircrafc

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The wide variety of programs discussed at the conference were all products of the Air Force's all-out effort to find a way to collect intelligence on the Communist Bloc. Some of the schemes went beyond the existing level of technology; others, like the camera-carrying balloons, were technically feasible but involved dangerous political consequences.

British Overflight of Kapustin Yar The British were also working on high-altitude reconnaissance aircraft In 1952 the Royal Air Force (RAF) began Project ROBIN, which was designed to modify the Canberra bomber for high-altitude reconnaissance. This project was probably inspired by Richard Leghorn's collaboration with English Electric Company designers in 1951, when they calculated ways to increase the altitude of the Canberra. The RAF equipped the new Canberra PR7 with RollsRoyce Avon-109 engines and gave it long, fuel-filled wings. The range of this variant of the Canberra was now 4,300 miles, and, on 29 August !955, it achieved an altitude of 65,880 feet.N Sometime during the first half of 1953. the RAF employed a high-altitude Canberra on a daring overflight of the Soviet Union to photograph the missile test range at Kapustin Yar. Because of advanced warning from either radar or agents inside British intelligence, the overflight did not catch the Soviet Union by surprise. Soviet fighters damaged and nearly shot down the Canberra!" Rumors about this flight reached Washington during the summer of 1953, but official confirmation by the United Kingdom did not come until February 1954. While on a six-week tour of Europe to study aerial reconnaissance problems for the US Air Force's Scientific James Baker was briefed by RAF offi~ cials on the Canberra of the Soviet Union. On 22 and 23 the full Board

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Baker also chaired the next meeting of the Air Force's Intelligence Systems Panel in late April 195-t. but could not te!l its members about the British overtl ig ht of Kapustin Yar because they were not cleared for this information. The panel did. however. discuss the modifications for high -altitude tlight being made to the US Canberra, the B-57 ." The Intelligence Systems Panel and the CL-282

Allen F. Donovan

The next Intelligence Sy stems Panel meeting took place on 24 and 25 May at Boston University and the Polaroid Corporation. Panel mem ber Allen F. Donovan from the Cornell Aeron:mtical Laboratory evaluated the changes being made to the B-57 by the Martin Aircraft Company. Even without Martin's specifications or drawings, Donovan had been able to estimate what could be done to the B-57 by lengthening the wings and lightening the fuselage. He had determined thar alterations to the B-57 airframe would not solve the reconnaissance needs expressed in the BEACON HILL Report. Theoretically, he explained to the panel. any multiengine aircraft built according to military specitications. including the B-57. would be too heavy to fly above 65,000 feet and hence would be vulnerable to Soviet interception . To be safe, Donovan explained. penetrating aircraft would need to fly above 70,000 feet for the entire mission .'' Development of such an aircraft was already under way. Donovan ccinlinued. for Phil ip Strong of the CIA had told him that the Lockheed Aircraft Corporation had designed a lightweight, high-flying aircraft. ISP chairman Baker then urged Donovan to travel to southern California to evaluate the Lockheed design and gather ideas on high-altitude aircraft from other aircraft manufacturers. When he was finally able to make thi s trip in late summer, Donovan fou nd the plane that he and the other ISP members had been seeking. On the afternoon of 2 August 195-t.. Donovan met with L. Euge ne Roor. an old Ai r Force acquaimance who was now a Lockheed vice -president. and learned about the Air Force's competi tion for a high-altitude reconnai ssance aircraft. Kell y Joh nson then showed Donovan the plans for Lock heed 's unsuccessful entry. A lifelong sai lplane enthusiast. Donovan immediately recogni zed that the

" Baker imervie" (S l. '' Donovan int<!r>iew (SJ: Ba~cr inr.:rvicw (5 ).

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25 CL-282 design was essentially a jet-propelled glider capable of attaining the altitudes that he felt were necessary to carry out reconnaissance of the Soviet Union successfully."' Upon his return east on 8 August, Donovan got in touch with James Baker and suggested an urgent meeting of the Intelligence Systems Panel. Because of other commitments by the members, however, the panel did not meet to hear Donovan's report until 24 September I 954 at the Cornell Aeronautical Laboratory. Several members. including Land and Strong. were absent. Those who did attend were upset to learn that the Air Force had funded a closed competition for a tactical reconnaissance plane without informing them. But once Donovan began describing Kelly Johnson's rejected design for a jet-powered glider, they quickly forgot their annoyance and listened intently. Donovan began by stressing that high-altitude reconnaissance aircraft had to tly above 70,000 feet to be safe from interception. Next, he set out what he considered to be the three essential requirements for a high-altitude spyplane: a single engine, a sailplane wing. and low structural load factors. Donovan strongly favored single-engine aircraft because they are both lighter and more reliable than multiengine aircraft. Although a twin-engine aircraft could theoretically return to base on only one engine. Donovan explained. it could only do so at a much lower altitude, about 34,000 feet, where it was sure to be shot down. The second of Donovan's essential factors, a sailplane wing (in technical terms a high-aspect-ratio, low-induced-drag wing), was needed to take maximum advantage of the reduced thrust of a enoperating in the rarefied of extreme altitude. Because of the thinness of the atmosphere above 70,000 estimated that the power curve of a would fall off to about 6

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26 wingroot areas to withstand the high speeds and sharp turns mandated by the standard military airworthiness rules added too much weight to the airframe, thereby negating the efficiency of the sailplane wing. In short, it was possible to achieve altitudes in excess of 70, 000 feet, but only by making certain that all parts of the aeronautical equation were in balance: thrust, lift, and weight. The only plane meeting these requirements, Donovan insisted, was Kelly Johnson's CL-282 because it was essentially a sailplane. In Donovan's view, the CL-282 did not have to meet the specifications of a combat aircraft because it could fty safely above Soviet fighters ..... Donovan's arguments convinced the Intelligence Systems Panel of the merits of the CL-282 proposal, but this panel reported to the Air Force. which had already rejected the CL-282. Thus, even though the Lockheed CL-282 had several important sources of support by September 1954--the members of the Intelligence Systems Panel and high-ranking Air Force civilians such as Trevor Gardner-these backers were all connected with the Air Force. They could not offer funds to Lockheed to pursue the CL-282 concept because the Air Force was already committed to the Martin RB-57 and the Bell X-16. Additional support from outside the Air Force was needed to bring the CL-282 project to life, and this support would come from scientists serving on high-level advisory committees.

The Technological Capabilities Panel The Eisenhower administration was growing increasingly concerned over the capability of the Soviet Union to launch a surprise attack on m Trevor Gardner had become alarmed the United States. a RAND Corporation study that a surprise attack n»•arr"•u 85 of the SAC bomber Gardner then met California Institute

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27 Gardner. the committee members decided to approach Presiden t Eisenhower on the matter. On 27 March 1954. the President told them about the di scovery of the Soviet Bison bombers and hi s concem that these new aircraft might be used in a surprise attack on the United States. Stress ing the high pri ority he gave to reducing the risk of military surprise, the President asked the comminee to advise him on this problem. H The President's request led Chairman DuBridge to ask one of the most prominem members. MIT President James R. Killian, Jr.. to meet with other Science Advisory Committee members in the Boston area to discuss the feasibility of a comprehensive sciemitic assessment of the nation's defenses . At their meeting at MIT on 15 April 1954. the group called for the recruitment of such a task force if the President endorsed the concept. On 26 July 1954. President Eisenhower aurhorized Killian to recruit and lead a panel of experts to study "'the country's technological capabilities to meet some of its current problems ." Killian quickly set up shop in offices located in the Old Executive Oftice B.u.ilding and organized 42 of the nation's leading scientists into three special project groups investigating US offensive. defensive. and intelligence capabilites. with an additional communications working group (see chart. page 28). The Technological Capabilities Panel (TCP) groups began meeting on 13 September 1954. For the next 20 weeks, the members of the various panels met on 307 separate occasions for briefings. field trips. conferences. and meetings with every major unit of the US defen se and intelligence establishments. After receiving the most up-to-date information available on the nation 路s defense and intelligence programs. the panel members began drafting the ir report to the National Security Council."'

Project Three Support for the Lockheed CL-282 Even before the final Techno logical Capab ilities Panel report was ready, one of the three working groups took actions that would have a major impact o n the US reconnaissance program. Project Three had

" Besc h loss. Mavda ;.路. pp. 73- 7-1-: Technological Capabilities Pand o f the Scit!nce Ad visory Comm iltce. Mt'etin<: rite Threat of Surprise Attack. 14 f ebruary 1955. p. 185 (herea fttl!r cited :~s TCP Report ) !TS/ R.:s(ri..:tcJ Data. downgraded 10 S ).

"' James R Killian. Jr.. Spumik. Scientisn. anti Eisenhower: A Memair of the Firw Special Aniswnr to tlte Preiidem for Science and Tech11ology !Cambridge: MIT Press. 1977). p. 6&: S<!schloss. Ma~路dm路. p. 7..1: TCP Ret>ort, pp. 185-1!!6 (5).

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James R. Killian, Jr.

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._ Chapter 1 28

Technological Capabilities Panel

The President of the United States

Director, Office of Defense Mobilization

·Technological Capabilities Panel of the Science Advisory Committee

Executive Staff

r--David Z. Beckler, ODM Lt. Col. V. T. Ford, USAF

Military Advisory _Committee

Steering Committee Administrative Staff J. R. Killian, Jr., Director J. B. Fisk, Deputy Director L. A. DuBridge J.P. Baxter M. G. Holloway J. H. Doolittle L. J. Haworth E. H. Land R. C. Sprague, Consultant

William Brazeal M. Comerford C. Klett L. Wiesner E. Hockett D.Le~wis

K. Welchold

l Project 2

M. G. Holloway, Dir. E. P. Aurand R. L. Belzer

L. J. Haworth, Dir. E. Barlow D. Dustin R. Emberson A. G. Hill B. McMillan R. Rollefson H. Scoville, Jr. M.A. Tuve R Gilruth Morton Mouzon

S.C. Hight R. Mettler E. H. Plesset W. Stratton J. West C. Zimmerman R Horton

Consultant for Personnel

H. D. Chittim

Lt. Gen. L. L. Lemnitzer, USA RAdm. H. D. Felt, USN • Brig. Gen. B. K. Holloway, USAF" Maj. Gen. H. McK. Roper a • Constitute military consultant group.

I Project 3

Project 1

Communications Working Group

E. H. Land, Dir.

J. G. Baker J.Kennedy A. Latham, Jr. E. Purcell J. W. Tukey

J. B. Wiesner, Chmn. G. W.Gilman H. T. Friis W. H. Radford Subcommittee

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29 the task of investigating the nation's intelligence capabilities. Its chairman was Edwin H. (Din) Land . the inventor of the polarizing filter and the in stant camera. When James Killian asked Land to head Project Three, Land had ro make a major decision about his career. At the time, the 45-year· old millionaire was on a lea ve of absence from Polaroid and was living in Hollywood, advising Alfred Hitchcock on the technological aspects of making three-dimensional movies. Land decided to give up his interest in cinema's third dimension and return 7 east to Polaroid and the panel appointment: Land 's Project Three was the smallest of the three Technological Capabilities Panel projects, for he preferred what he called •·taxicab committees"--committees small enough to fit into a single taxicab. The Project Three commitree consisted of Land; James Baker and Edward Purcell of Harvard; chemist Joseph W. Kennedy of Washington University, St. Louis; mathematician John W. Tukey of Princeton University and Bell Telephone Laboratories; and Allen Latham, Jr.. of Arthur D. Little. Inc., an engineer and fonner treasurer of the Polaroid Corporation:• [n mid-August 1954. Land and Baker went to Washington to arrange for the various intelligence organizations to brief the Project Three study group. As the briefings progressed, the panel members became more and more distressed at the poor state of the nation 's intelligence resources. Land later noted. "We would go in and interview generals and admirals in charge of intelligence and come away wor· ried. Here we were, five or six young men. asking questions that these high-ranking officers couldn't answer." Land added that the Projec t Three members were also not o verly impressed with the Central . [ nte II 1gence Agency. •'I Land learned the details of Lockheed's proposed CL-282 ai rcraft soon after he arrived in Washington . Philip Strong showed him Kelly Johnson's conceptual drawing of the plane and told him that the Air Force had rejected it. Although Land had heard Allen Donovan

" James R. Kill ian, Jr.• interview by Dona ld E. We lzenbach. tape recording. Cambridge. ,\ lassachusc:us. ~Novembe r 198-1 (S); Land inte rview <TS Codeword) .

·• TCP Rt!port. p. 138 (S). •• Land imerview (TS Codeword).

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Chapter 1 30

brietly mention a Lockheed design for a high-tlying aircraft ar the 24-25 May meeting of Baker's Intelligence Systems Panel, he did not realize that that plane and the one in Strong's drawing were the same. As soon as Land saw Strong's copy of the CL-282 drawing. however, he telephoned Baker to say. "Jim. I think I have the plane you are after." '" A few days later, when Land showed Kelly Johnson's conceptual drawing to Baker and the other Project Three members. they all became enthusiastic about the aircraft's possibilities. Although Baker had heard Allen Donovan's brief mention of the Lockheed design in May. he had not yet seen a drawing of the aircraft because Donovan did not report to the ISP on his early-August trip to Lockheed until 24 September. After seeing the CL-282 drawing. Baker began designing 5 a camera and lens system that would fit in the Lockheed craft. ' At the end of August, Land discussed the CL-282 with Allen Dulles's Special Assistant for Planning and Coordination. Richard Bissell. who came away from the meeting without any definite ideas as to what Land wanted to do with the aircraft. Overhead reconnaissance was not uppermost in Bissell's mind at the time, and it was unclear to him why he had even been contacted.'~ Bissell's outstanding academic credentials. his acquaintanceship with James Killian through his previous teaching experience at MIT, and his direct access to ocr Dulles may have led the Technological Capabilities Panel members to consider him the best CIA point of contact. Although surprised that he had become involved in the CL-282 project, Bissell's interest was piqued, and he set out to learn what he could about reconnaissance systems. In early September 1954, Bissell had E. a young Air Force officer on his

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attention to a section of the report about a "stripped or specialized aircraft" called the Lockheed CL-282.~" By September 1954. Land's Project Three study group had become very much interested in the Lockheed CL-282 design. Their interest grew even stronger when James Baker told them of Allen Donovan's strong case for the CL-282 at the 24-25 September meeting of the ISP. It is not possible to determine exactly when the Land committee decided to back the CL-282; in fact. there may never have been a formal decision as such. In view of Land's impulsive nature, he probably seized upon the CL-282 design as being a workable concept and immediately began developing it into a complete reconnaissance system. During September and October the Project Three study group met frequemly to discuss the Lockheed design and the reconnaissance equipment it would carry. Meetings were small, generally with fewer than 10 participants; Garrison Norton was often the only government official in attendance. At times outside experts joined in the proceedings. When the discussion turned to cameras and film, Land invited Dr. Henry Yutzy, Eastman Kodak's film expert, and Richard S. Perkin, President of the Perkin-Elmer Company, to participate. For discussions on the J57 engine, the panel members asked Perry W. Pratt, Pratt and Whitney's chief engineer, to attend. Kelly Johnson 5 also met with the panel to review plans for the CL-282 system. '" By the end of October, the Project Three meetings had covered every aspect of the Lockheed design. The CL-282 was to be more than an airplane with a camera, it was to be an integrated intelligence-collection system that the Project Three members were confident could find and photograph the Soviet Union's Bison bomber fleet and. resolve the "bomber lt was fanthe Lockheed aircraft that had captured the Land was seen as the for a whole new <r,.,,,.r,t aerial cameras that several committee members had been Panel the BEACON HILL and James Baker was in the process

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Chapter 1

32 camera with tremendously improved resolution and film capacity, and the Eastman Kodak company was working on new thin, lightweight 15 film. By October 1954. the Project Three study group had drafted a complete program for an overhead reconnaissance effort based on the CL-282 aircraft. The one remaining question was who would conduct the overtlights. The committee's members, particularly Land. were not in favor of the Air Force conducting such missions in peacetime. Firmly believing that military overflights in armed aircraft could provoke a war, they argued for civilian overflights in unarmed, unmarked aircraft. In their view, the organization most suited for this mission 5 was the Central Intelligence Agency. ' In late Occober 1954, the Project Three panel discussed the CL-282 system concept with DCI Allen Dulles and the Secretary of the Air Force's Special Assistant for Research and Development. Trevor Gardner. Dulles was reluctant to have the CIA undertake the project. He did not like to involve the CIA with military projects, even ones that the military had rejected, like the CL-282. Furthermore. the DCI strongly believed that the Agency's mission lay in the use of hu路 man operatives and secret communications. the classic forms of intelligence gathering. Land came away from this meeting with the impression that Dulles somehow thought overflights were not fair play. Project Three committee members were nevertheless convinced that technology. particularly in the form of the CL-282 and the new camera designs, would solve the nation's intelligence problems.P

A Meeting With the President Allen Dulles's reluctance to involve the CIA in the CL-282 project did not stop the Project Three committee from its aims because it was able to go over Dulles's head and appeal to the President in the BEACON HILL and the

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to do so because the Land committee was part of a panel commissioned by President Eisenhower to examine the nation's intelligence community and recommend changes. The committee thus had a direct line to the White House through James Killian's contacts there. Early in November 1954, Land and Killian met with President Eisenhower to discuss high-altitude reconnaissance. Killian's memoirs comain an account of this crucial meeting:

Land described the [CL-282] system using an unarmed plane and recommended that its development be undertaken. After listening to our proposal and asking many hard questions, Eisenhower ap· proved the development of the system, but he stipulated that it should be handled in an unconventional way so that it would not become entangled in the bureaucracy of the Defense Department or troubled by rivalries among the services.S8 The scientists from the advisory committees and the President were thus in agreement that the new reconnaissance program should be controlled by the CIA. not the military.

ClA and Air Force Agreement on the CL-282 Meanwhile Edwin Land and his Project Three colleagues were working to convince Allen Dulles that the CIA should run the proposed overflight program. On 5 November Land wrote to the DCI strongly urging that the CIA undertake the CL-282 project:

Here is the brief report from our panel telling why we think overflight is urgent and presently feasible. I [Land] am not sure that we have made it clear that we feel there are many reasons why this activity is appropriate for CIA, always with Air Force assistance. We told you that this seems to us the kind of action and technique that is right the contemporary version of CIA: a modem and scientific way an that is ed to be to its •uu"•"x·

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Sec~ Chapter 1 34

The letter had two attachments: a two-page summary of a complete operational plan for organizing, building, and deploying the CL-282 within a period of 20 months at a cost of S22 million and a three-page memorandum, entitled "A Unique Opportunity for Comprehensive Intelligence." Aware of Dulles's preference for classical intelligence work, the Project Three memorandum stressed the superiority of the CL-282 program over traditional espionage methods:

We believe that these planes can go where we need to have them go efficiently and safely, and that no amount offragmentary and indirect intelligence can be pieced together to be equivalent to such positive information as can thus be provided. 60 The Land committee memorandum also stressed the need for the CIA to undertake such reconnaissance missions rather than the Air Force, noting that "For the present it seems rather dangerous for one of our military arms to engage directly in extensive overflight." The committee members also listed the advantages of using the CL-282 rather than an Air Force aircraft:

The Lockheed super glider will fly at 70,000 feet, well out of the reach of present Russian interceptors and high enough to have a good chance of avoiding detection. The plane itself is so light ( 15,000 pounds), so obviously unarmed and devoid of military usefulness, that it would minimize affront to the Russians even 1j through some remote mischance it were detected and identified.6' One additional advantage of the Lockheed design over the Air Force's proposed high-altitude reconnaissance aircraft was a faster completion time. Kelly Johnson had promised the Land committee that his aircraft would be flying by August 1955, just eight months after he proposed to start construction. The Bell X-16 prototype was of 1956. not scheduled for completion before the """"u of Killian and the other scientists on the various committees concerned overhead reconnaissance, combined with President Eisenhower's won "'"

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over DCI Dulles, but a project of this magnitude also required the support of the Air Force. Some Air Force officials, however, feared that a decision to build the CL-282 might jeopardize the Air Force's own RB-57 and X-16 projects. Just one month earlier, in October 1954, the Wright Air Development Command had appealed to the Air Force Deputy Chief of Staff for Development, Lt. Gen. Donald L Putt, to oppose the adoption of the Lockheed design. The officials argued that the Bell X-16 was a better design because it was more airworthy than the CL-282 and could be used throughout the Air Force in different types of missions because it had two engines, wheels, and an armor-plated. pressurized pilot's compartment. If J57 engines were diverted to the CL-282, the appeal to General Putt warned, there would not be enough of these popular powerplants to meet the needs 2 of the X-16 program." Having heard of the Wright Air Development Command attack on the CL-282, Allen Donovan of the Intelligence Systems Panel met with General Putt on 19 October to argue in favor of the Lockheed design. This discussion led General Putt to meet with 15 scientists from the Technological Capabilities Panel on 18 November 1954 to discuss the merits of the four proposed reconnaissance aircraft. Also present as a briefer was Maj. John Seaberg from the Wright Air Development Command, who later recalled:

What I did was present the results of my comparative analysis of all four designs. I showed the relative high altitude performance capabilities of all four. I pointed out that aerodynamically the Bell, Fairchild, and Lockheed designs were close. Martins B-57, being a modification, was not quite as capable. I stated that, in my opinion, the 173 [General Electric engine/ would not be good enough to do the job in Johnson s airplane. And further, l overlaid a curve showing that with the 157 [Pratt&: Whitney en~ "'""''""' ... it would then be competitive with the Bell and

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...,__

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36 On 19 November, the day after Seaberg's briefing, the final decision on the CL-282 carne at a luncheon hosted by Air Force Secretary Talbott. The participants-Dulles and Cabell from the CIA; Gardner, Ayer, and General Putt from the Air Force; Kelly Johnson; and Edwin Land-all agreed "that the special item of material described by Lockheed was practical and desirable and would be sought ... It was agreed that the Project should be a joint Air Force-CIA one but that, regardless of the source of the funds, whether AF or CIA, CIA unvouchered channels would be needed to pass the funds.,,.

It is interesting to note that Lockheed, which had originally developed the CL-282 on its own and had devoted considerable effort to promoting it, had to be persuaded to undertake the project in November 1954 because the company had become heavily committed to several other civilian and military projects. When Kelly Johnson received a call from Trevor Gardner on 17 November asking him to come to Washington for conversations on the project, his instructions from Lockheed's senior management were .. to not commit to any program during the visit, but to get the information and return." When he returned to California, Johnson noted in his project log that "[ was impressed with the secrecy aspect and was told by Gardner that I was essentially being drafted for the project. It seemed, in fact, that if [ did not talk quietly, I might have to take a leave of absence from my job at Lockheed to do this special project." â&#x20AC;˘s Of course, Kelly Johnson did not need to be drafted or persuaded into undertaking such a bold step forward in aircraft design. He used Gardner's statement to convince Lockheed's senior management to approve the project, which they did after meeting with Johnson when he returned to California on the evening of 19 November. Intelligence Advisory Undertake the

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37 President and received verbal authorization to proceed. Eisenhower told Dulles that the project was to be managed by the Agency and that the Air Force was to provide any assistance needed to it . 166 operatwna . Thus, it was that the CIA entered into the world of high technology primarily because of decisions and actions taken ourside the Agency: the Air Force's refusal to build the CL-282 aircraft, President Eisenhower's desire to have a sensitive overflight conducted by a civilian agency rather than the military, and, above all, the determination by a small group of prominent scientists that the Lockheed represented the best possible overhead reconnaissance system.

"" Charles Peam: Cabell, Memorandum for the Record ... Meeting at the White House:路 2~ November 1954. in OSA History. chap. 2. annex 8 (TS Codeword) : Beschloss. Mayday, pp. 82-83: Andrew J. Goodpaster. Memorandum of Conference with the President. 2~ November 1954, .. White House Office of the Staff Secretary, Alpha Series. Dwight D. Eisenhower Library (hereafter cited as WHOSS. Alpha. DDEL) (TS. declassified).

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Chapter 2 39

Developing the U-2

THE ESTABliSHMENT OF THE U-2 PROJECT On 26 November 1954, the day after Thanksgiving, Allen Dulles called his special assistant, Richard Bissell, into his offiae to tell him that President Eisenhower had just approved a very secret program and that Dulles wanted Bissell to take charge of it. Saying it was too ?ecret for him to explain, Dulles gave Bissell a packet of documents and told him he could keep it for several days to acquaint himself with the project. Bissell had long known of the proposal to build a high-altitude reconnaissance aircraft, but only in the most general terms. Now he learned in detail about the project that proposed sendaircraft over the Soviet Union. Late on the morning of 2 December 1954, Dulles told Bissell to go to the Pentagon on the following day to represent the Agency at an 1 organizational meeting the project. Before leaving, Bissell asked Dulles which was to run the project The DCI replied that had been then asked who was "That wasn't even the

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sat down with a group of key Air Force offic ials that included Trevor Gardner and Lt. Gen. Donald L. Putt. The participanrs spent very little time delineating Air Force and Agency re sponsibilities in the project, taking for granted that the ClA would handle the security matters. Much of the discussion ce ntered on methods for diverting Air Force materiel to the program, particularly the Pratt & Whitney 157 engines, because a separate contract for the engines might jeopardize the project's security. The Air Force promised to tum over a number of 157 engines, which were then being produced for B-52s, KC-l35s, F-lOOs, and RB-57s. Eventually Bissell asked who was going to pay for the airframes w be built by Lockheed. His query was greeted with silence. Everyone present had their eyes on him because they all expected the Agency to co me up with the funds. Bissell rose from his chair, sa id he would see what he could do, and the meeting adjourned.)

James A. Cunningham, Jr.

After the meeting, Bissell told Dulles that the ClA would have 10 use money from the Contingency Reserve Fund to get the project going. The DC! used this fund to pay for covert activities, following approval by the President and the Director of the Budget. Dulles told Bissell to draft a memorandum for the President on funding the overflight program and to start putting together a staff for Project AQUATONE, the project 's new codename. At first the new " Project Staff ' (renamed the De velopment Projects Staff in April 1958) consisted of Bissell, Miller, and the small existing staff in Bissell's Office of the Special Assistant to the DCI. During the months that followed the establishment of the projeer, its administrative workload increased rapidly, and in May 1955 the project staff added an adm inistrative officer, James A. Cunningham, Jr., a former Marine Corps pilot then working in the Directorate of Support. Cunningham stayed with the U-2 project fo r the next 10 years. Two other key project offic ials who began their duties early in 1955 werei·- •• --- ---••> - •j••-••• the finance offi cer, and : ____ j the co ntractmg officer. ;·H-- -·-~ :

' OSA Histo ry. chap. 3. p. 2 (TS Codeword ); Bi ssdl imerview. 8 November 1984 (S); Bc:schlo:>s. Ma.vday. p. 89. ' OSA History. chap 3, pp. 6-7. chap . .i. pp. 1·2. ch:1p. 5. pp. 27-29 (T S Codeword); Chmnology of the Office of Special Activities. 195-1-/968, (C!A : DS&T, ! 969). p. 2·4 (TS Codeword) (hu~ a fre r cited as OSA Chronology).

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~ 41

I Project AQUATONE Personnel Special Assistant to the DCI for Planning and Coordination

I Headquarters CIA USAF

18 7

I US Field Test Base CIA 26

-26-

Foreign Field Base A 16 CIA USAF 34 Contract 52

-102-

Total

Foreign Field Base B CIA 16 USAF 34 Contract 52

-102-

,,...,,... ,.,.,.,. CIA '1-'~~v

Foreign Field Base C CIA 16 USAF 34 Contract 52

-102-

:on tract

357

During the first half of 1955. the project staff grew slowly: many of the individuals working on overhead reconnaissance remained on the rolls of other Agency components. To achieve maximum security. Bissell made the project staff self-sufficient. Project AQUATONE had its own contract management, administrative, financial, logistic, communications, and security personnel, and, thus, did not need to turn to the Agency directorates for assistance. Funding for Project AQUATONE was also kept separate from other Agency components; its personnel and operating costs were not paid out of regular Agency accounts. As approving officer for the project, Richard Bissell could funds in amounts up to $1 00.000; sums the

At the end Deputy Director for Support AQUATONE Once operationaL the for

would have a

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The Matomic Building

total of 357 personnel divided among project headquarters. a US testing facility. and three foreign field bases. CIA employees represented only one-fourth (92) of the total. The Air Force personnel commitment was larger, with I 09 positions on the 1955 table of organization (this total does not include many other Air Force personnel, such as SAC meteorologists. who supported the U-2 project in addition to their other duties). The largest Project AQUATONE category was contrac t employees, with I 56 positions in 1955 . This category included maintenance and support personnel from Lockheed (five per aircraft), the pilots, and support personnel from other contractors for items such as photographic equipment." T he firs t projec t headquarters was in C IA's Ad min istration (East) Building at 2430 E Stree t, NW. Conti nued growth caused the AQ UATONE staff to move several times duri ng its first two years . On I May 1955. the project staff moved to the third floor of a small red brick buildi ng (the Bri ggs School) at 22 10 E Street, NW. Then on 3 October. the staff mo ved to Wings A and C of Quarters Eye. a World War [I " temporary " building on Ohio Drive, NW, in the West Potomac Park area of Washi ngto n. On 25 February 1956, the project staff moved again, th is time to the fifth fl oor of the Matomic Building

â&#x20AC;˘ Projcc.:t AQUATONE Tabk of Organization. 28 April 1955 in OSA History. chap. 3. :~nÂ nt:\ 15 (TS Codeword)

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at 1717 H Street , NW. Here the staff remained for the next six years until it moved into the new CIA Headquarters building at Langley in March 1962. The final move came in January 1968, when the project staff (l;).y_tlJ<tUi_!ll_~~!:IQ~nas theOftice of Special Acti vities) moved to the --- - -- - - -------· · -:

.... _______..! Bissell reported directly to the DC!, although in reality the DDCI, Gen. Charles Pearre Cabell , was much more closely involved in the day-to-day affairs of the overhead reconnai ss ance project. Cabell 's extensive background in Air Force intelligence. particularly in overhead reconnaissance , made him ideally qualified to oversee the U-2 project. Cabell frequently attended White House meetings on the U-2 for the DCL

FUNDING ARRANGEMENTS FOR PROJECT AQUATONE Although Allen Dulles had approved the concept of covert funding for the reconnaissance project. many financial details remained to be settled, including the contract with Lockheed. Nevertheless. work on the U-2 began as soon as the project was authorized. Between 29 November and 3 December 1954. Kelly Johnson pulled together a team of 25 engineers, which was not easy because he had to take them off other Lockheed projects without being able to explain why to their fanner supervisors. The engineers immediately began to work 45 hours a week on the project. The project staff gradually expanded to a total of 81 personnel, and the workweek soon increased to 65 3 hours . Kelly Johnson's willingness to begin work on the aircraft without a contrac t illustrates one of the most important aspects of this program: the use of unvouchered funds for covert procu rement. Lockheed was we ll acquainted wi th the covert procurement process, having previously modi fied several ai rcraft for covert use by the C!A. Covert funding for sens itive projects si mp lifies both procurement and security procedures because the funds are not attribu table to the Federal Government and there is no public accountabi lity fo r their

' OSA History. ch:tp. !8, pp. 7-8 (TS Codeword ); OSA Ch ronology. pp. 4. 7. 10. J 5 (TS Codeword).

' Johnson. ··Log for Project

x:·

29 :-.lovernb.::r-3 December l95J ( UJ.

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DOC! Charles Pearre Cabell

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Chapter 2 44

use. Public Law 110, approved by the 81 st Congress on 20 June 1949, designates the Director of Central Intelligence as the only government employee who can obligate Federal money without the use of vouchers. By using unvouchered funds, it is possible to eliminate competitive bidding and thereby limit the number of parties who know about a given project. The use of unvouchered funds also speeds up the Federal procurement cycle. A general contractor such as Lockheed can purchase much, if not all, of the supplies needed for a project without resorting at each step to the mandate<! pr()(;llrement procedures involving public, competitive bidding,

In mid-December 1954, President Eisenhower authorized DC! Dulles to use $35 million from the Agency's Contingency Reserve Fund to finance the U-2 project. Then on 22 December 1954, the Agency signed a letter contract with Lockheed, using the codename Project OARFISH. The Agency had proposed to give Lockheed "performance specifications" rather than the standard Air Force "technical specifications," which were more rigid and demanding. and Kelly Johnson agreed that such a move would save a lot of money. Lockheed's original proposal to the Air Force in May 1954 had been $28 million for 20 U-2s equipped with GE 173 engines. During negotiations with CIA General Counsel Lawrence R. Houston, Lockheed changed its proposal to $26 million for 20 airframes plus a two-seat trainer model and spares; the Air Force was to furnish the engines. Houston insisted that the Agency could only budget .$22.5 million for the airframes because it needed the balance of the available .$35 million for cameras and life-support gear. The two sides finally agreed on a fixed-price contract with a provision for a review three-fourths of the way to determine if the costs were to exceed the $22.5 million The formal SP-191 on 2 March 1955 and called for the 1

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45 As it turned out, no review of the contract was necessary at the three-fourths point. Lockheed delivered the aircraft not only on time but under budget. During the final contract negotiations in the spring of 1958, Lockheed and the US Government agreed on a price for the original 20 aircraft of $17,025.542 plus a profit of $1,952,055 for a total of $18,977 ,597-less than $1 million for each aircraft. Because its design was based on Lockheed's F-1 04, the U-2 was relatively inexpensive even though only a small number of aircraft had been ordered. Only the wings and tail were unique; Lockheed manufactured the other portions of the aircraft using the F-104's jigs and dies.

MAJOR DESIGN FEATURES OF THE U-2 Aware of the great need for secrecy in the new project, Kelly Johnson placed it in Lockheed's Advanced Development facility at Burbank, 10 California. known as the Skunk Works. Lockheed had established this highly secure area in 1945 to develop the nation's first jet aircraft, the P-80 Shooting Star. The small Skunk Works staff began making the_detailed drawings for the U-2, which was nicknamed the "Angel" because it was to fly so high. Kelly Johnson's approach to prototype development was to have his engineers and draftsmen located not more than 50 feet from the aircraft assembly line. Difficulties in construction were immediately brought to the attention of the engineers, who gathered the mechanics around the drafting tables to discuss ways to overcome the difficulties. As a result, engineers were generally able to fix problems in the design in a matter of hours, not days or weeks. There was no emphasis placed on producing neatly typed memorandums; engineers simply made pencil notations on the drawings in order to keep the quickly. A little more than a week after he had been authorized to his most <OAIJti11l!I<0'Uâ&#x20AC;˘ would which was the limit for The U-2 would have

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Skunk Works Design Staff

speed of Mach 0.8 or 460 knots at altitude. Its initial maximum altitude would be 70 ,600 feet and the ultimate max imum altitude would be 73, 100 feet. According to these early December 1954 s pecifications, the new plane would take off at 90 knots, land at 76 knots , and be able to g lide 244 nautical mi les fro m an altitude of 70.000 feet. After d iscussing the reconnaissance bay with James Baker, Johnson had worked ou t various equi pmen t combi nations that would no t exceed the we ight limit of 450 pounds . Johnson ended his report by prom is ing the first test flight by 2 August 1955 and the co mp letio n o f fou r aircraft by I Dece mber 1955' :

Kc:l!y Johnson. .. A Hig h-Ait nudo:: Reconnaissance Aircra ft,'' 9 Decembt!r ! 954. Lo.:khced Contract Files. OS A Rccords (Sl.

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47 In designing the U-2 aircraft, Kelly Johnson was confronted with two major problems-fuel capacity and weight. To achieve intercontinental range. the aircraft had to carry a large supply of fuel, yet. it also had to be light enough to attain the ultrahigh altitudes needed to be safe from interception. Although the final product resembled a typical jet aircraft, its construction was unlike any other US military aircraft. One unusual design feature was the tail assembly, which-to save weight-was attached to the main body with just three tension bolts. This feature had been adapted from sailplane designs. The wings were also unique. Unlike conventional aircraft, whose main wing spar passes through the fuselage to give the wings continuity and strength, the U-2 had two separate wing panels. which were attached to the fuselage sides with tension bolts (again, just as in sailplanes). Because the wing spar did not pass through the fuselage, Johnson was able to locate the camera behind the pilot and ahead of the engine, thereby improving the aircraft's center of gravity and reducing its weight. The wings were the most challenging design feature of the entire airpJ.ane. Their combination of high-aspect ratio and low-drag ratio (in other words, the wings were long, narrow, and thin) made them unique in jet aircraft design. The wings were actually integral fuel tanks that carried almost all of the U-2's fuel supply. The fragility of the wings and tail section, which were only bolted to the fuselage, forced Kelly Johnson to look for a way to protect the aircraft from gusts of wind at altitudes below 35,000 feet, which otherwise might cause the aircraft to disintegrate. Johnson again borrowed from sailplane designs to devise a "gust control" mechanism that set the ailerons and horizontal stabilizers into a position that kept the aircraft in a slightly nose-up attitude, sudden stresses caused wind the U-2 aircraft that

touchdown for this 7-ton aircrafL Because the

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U-2 at testing site before attachment of wings and tail assembly

that they could be recovered and reused. The aircraft landed on its front and back landing gear and then gradually tilted over onto one of the wingtips. which were equipped with landing skids.u

THE DEVELOPMENT OF THE CAMERA SYSTEM By Dece mber 1954. Kell y John so n was at wo rk on drawings for the U-2's airframe and Prau & Whi tney was already building the 157 jet

" For tht: dr:>ign ft:atun:s of thr: U-2 in ear ly 1955. 'c~ R. F Boehme. Summarv Reporr: Recrmnai.mmce Aircraft. Lockhc:.:d Aircraft Corporati< ln Report 104:!0, 2S hnu;.try 195 5. pp. 7 .'), OSA Records, JOb H- B-645. b<.H I tS!.

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•

~loo

•

'" _,;, ' . :::!'~ ' .

:.··::~~~ ~ ~~~-:· ~ tl~ ·' ~.

-engine, but no firm plans existed for the all-important cameras . Existing cameras were too bulky and lacked sufficient resolution m be used in high-a ltitude reconnaissance. The workhorses of World War II aerial photography had been the Fairchild K- I9 and K-21 framing cameras with lenses of varying focal lengths from 24 to 40 inches. Late in the war, the trimetrogon K-17 mapping-camera system came into use. This system consisted of three separate cameras which made three photographs simultaneously: a vertical, an oblique to the left, and an oblique to the right. The major shortcomings of the trimetrogon system were the large amount of film required and the system's lack of sharp definition on the obliques. The standard aerial cameras available in the early 1950s could achieve resolutions of about 20 to 25 feet (7 to 8 meters) on a side when used at an altitude of 33,000 feet ( l 0,000 meters), or about 25 lines per millimeter in current terms of re fe rence. Such resolution was considered adequate because aerial phomgraphy was then used primarily to choose targets for strategic bombing, to assess bomb damage after air raids, and to make maps and charts. Unfortunately, a camera with a reso lution of on ly 20 to 25 feet at a height of 33,000 fee t was too crude to be used at twice that altitude. Indeed, for intell igence purposes a resolution of less than 10 feet was necessary to discern smaller targets in greater detai l. This meant that any camera carried to altitudes above 68. 000 feet had to be almost four times as good as existing aerial cameras in order to ac hieve a resolution of less than 10 feet. As a result, some scientists doubted that useful photography could be obtained from altitudes higher than 40,000 feet. 'J

·• Baker intervi.:w

($).

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U-2 landing gear and pogos

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"""

The first success in designing very-high-acuity lenses came in the mid-1940s, when James G. Baker of Harvard and Richard S. Perkin of the Perkin-Elmer (P-E) Company of Norwalk, Connecticut, collaborated on a design for an experimental camera for the Army Air Force. They developed a 48-inch focal-length scanning camera that was mounted in a modified B-36 bomber. When tested over Fort Worth, Texas, at 34,000 feet, the new camera produced photographs in which two golf balls on a putting green could be distinguished (in reality, however, the " golf balls" were 3 inches in diameter). These photographs demonstrated the high acuity of Baker's lens, but the camera weighed more than a ton and was much too large to be carried aloft in an aircraft as small as the U-2.

James G. Baker

Realizing that size and weight were the major restraining factors in developing a camera for the U-2, James Baker began working on a radically new system in October 1954, even before the ClA adopted the Lockheed proposal. Baker quickly recognized, however, that he would need almost a year to produce a working model of such a complex camera. Since Kelly Johnson had promised to have a U-2 in the air within eight months, Baker needed to find an existing camera that could be used until the new camera was ready. After consulting with his friend and colleague Richard Perkin, Baker decided to adapt for the U-2 an Air Force camera known as the K-38, a 24-inch aerial framing camera built by the Hycon Manufacturing Company of Pasadena, California. Perkin suggested modifying several standard K-38 cameras in order to reduce their weight to the U-2's 450-pound payload limit At the same time, Baker would make critical adjustments to existing K-38 lenses to improve their acuity. Baker was able to do this in a few weeks, so several modified K-38s, now known as A- 1 cameras, were ready when the first "Angel" aircraft took to the air in mid-1955. 15 CIA awarded Hycon a contract for the modified K-38 cameras, and Hycon, in tum, subcontracted to Perkin-Elmer to provide new and to make other modifications to the cameras in order to make them less bulky. In irs tum, Perkin-Elmer subcontracted to Baker to rework the existing K-38 lenses and later design an im proved lens system. To keep his lens-designing efforts separate from

'' Ibid.

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A-1 camera

his research associate duties at Harvard and his service on government advisory bodies, Baker established a small firm known as Spica, Incorporated, on 31 January 1955. The A-I camera system consisted of two 24-inch K-38 framing cameras. One was mounted vertically and photographed a 11.2· swath beneath the aircraft onto a roll of 9.5-inch film. The second K-38 was placed in a rocking mount so that it alternately photographed the left oblique and right oblique out to 36.5" onto separate rolls of 9.5-inc h film . The film supplies unwound in opposite directions in order to min imize their effect on the balance of the aircraft. Both cameras used standard Air Force 24-i nch focal -length lenses adjusted for maximum acuity by Baker. The de velopment o f the special rocking mounr by Perkin-Elmer's Dr. Roderic M. Scott was a major factOr in reducing the size and weight of the A-I syste m, because the mount provided broad transverse coverage with a si ngle lens, ending the need 6 for rwo separate cameras .'

•• OSA Histo ry. chap. I, annt: ~ 3. pp. 1-3 (TS Cod<!word).

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A-2 camera

U-2s equipped with the A-1 camera system also carried a Perkin-Elmer tracking camera using 2.75-inch film and a 3-inch lens. This device made continuous horizon-to-horizon photographs of the terrain passing beneath the aircraft Because the A-I system was new, it also included a backup camera system, a K-17 6-inch three-camera trimetrogon unit using 9-inch film. While the A-I system was still being developed, James Baker was already working on the next generation of lenses for high-altitude reconnaissance. Baker was a pioneer in using computers to synthesize optical His software algorithms made it possible to model !ens and determine in advance effects that variations in and lens would have on lens curvatures. These programs rerays of for this he turned to the mos[ extensive modern computer available. an lBM CPC (card-programmed calcula11 installation at nearby Boston

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53 Baker's new lenses were used in a camera system known as the A-2, which returned to a trimetrogon arrangement because of problems with the A-1 system's rocking mount. The A-2 consisted of three separate K-38 framing cameras and 9.5-inch film magazines. One K-38 filmed the right oblique, another the vertical, and a third the left oblique. The A-2 system also included a 3-inch tracking camera. All A-2 cameras were equipped with the new 24-inch f/8.0 Baker-designed lenses. These were the first relatively large photographic objective lenses to employ several aspheric surfaces. James Baker personally ground these surfaces and made the final bench tests on each lens before releasing it to the Agency. These lenses were able to resolve 60 lines per millimeter, a 240-percent improvement over existing lenses.~~ Once Baker and Scott had redesigned the 24-inch lens for the K-38 devices, they turned their attention to Baker's new camera design, known as the B modeL It was a totally new concept, a high-resolution panoramic-type framing camera with a much longer 36-inch f/10.0 aspheric lens. The B camera was a very complex. device that . used a single lens to obtain photography from one horizon to the other, thereby reducing weight by having two fewer lenses and shutter assemblies than the standard trimetrogon configuration. Because its lens was longer than those used in the A cameras. the B camera achieved even higher resolution-100 lines per millimeter. The B camera used an 18- by 18-inch format, which was achieved by focusing the image onto two coumerrotating but overlapping 9. 5-inch wide strips of film. Baker designed this camera so that one film supply was located forward, the other aft. Thus, as the film supplies unwound, they counterbalanced each other and did not disturb the aircraft's center of

side vertical. This increased and almost doubled the

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8 camera

operating time. Three of the seven B-camera frames provided stereo coverage. The complex B cameras were engineered by Hycon's chief designer, William McFadden.''' James Baker's idea for the ultimate high-altitude camera was the C mode! that would have a 240-inch focal length. In December 1954, he made preliminary designs for folding the optical path using three mirrors, a prism, and an f/20.0 lens system. Before working out the details of this design, however, Baker flew to California in early January 1955 to consult with Kelly Johnson about the weight and space limitations of the U-2's payload every effort reduce the dimensions of the C camera, Baker needed an additional six inches of payload space to accommodate the lens. When he broached this the Iauer replied. 2 "Six more inches? I'd sell my for six more inches!" "

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55 Realizing that the 240-inch lens was both too large and roo heavy for the camera bay, Baker scaled the lens down to a 200-inch f/! 6. 0 system. This was still too big. Further reductions followed, resulting by July 1955 in a 120-inch f/10.9 !ens that met both the weight and space limitations. Later in the year, Baker decided to make the mirrors for the system out of a new, lightweight foamed silica material developed by Pittsburgh-Coming Glass Company. This reduced the weight significantly, and he was able to scale up the lens to a 180-inch f/13.85 reflective system for a 13- by 13-inch format. In the past, the calculations for such a complex camera lens would have taken years to complete, but thanks to Baker's ray-tracing computer program, he was able to accomplish the task in just 16 days. When a C camera built by Hycon was Right-tested on 31 January 1957, project engineers discovered that its 180-inch focal length, which was five times longer than that of the B camera, made the camera very sensitive to aircraft vibration and led to great difficulty in aiming the C camera from altitudes above 68,000 feet. The engineers, therefore, decided to shelve the camera. More than five years later, a redesigned C camera was employed during the Cuban Missile Crisis in October 1962, but the results were not very satisfactory. The failure of the C camera design was not a serious setback to the high-altitude reconnaissance program, because the B camera proved highly successfuL Once initial difficulties with the film-transport system were overcome, the B camera became the workhorse of high-altitude photography. An improved version known as the B-2 is still in use. Both of the earlier A-model cameras were phased out after September 1958. During the period when he was designing lenses for the CIA's overhead reconnaissance program, James Baker was also working on classified lens for the Air Force and unclassified for the Smithsonian Institution. To the of Baker's work told for the Herbert Miller of the

in the

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Ch~ 56

In addition to the camera systems, the U-2 carried one other important item of optical equipment, a periscope. Designed by James Baker and built by Walter Baird of Baird Associates, the optical periscope helped pilots recognize targets beneath the aircraft and also proved to be a valuable navigational aid.:::

PREPARATIONS FOR TESTING THE U-2 As work progressed in California on the airframe, in Connecticut on the engines, and in Boston on the camera system, the top officials of the Development Projects Staff tlew to California and Nevada to search for a site where the aircraft could be tested safely and secretly. On 12 April 1955 Richard Bissell and Col. Osmund Ritland (the senior Air Force officer on the project stafO tlew over Nevada with Kelly Johnson in a small Beechcraft plane piloted by Lockheed's chief test pilot, Tony LeVier. They spotted what appeared to be an airstrip by a salt flat known as Groom Lake, near the northeast corner of the Atomic Energy Commission's (AEC) Nevada Proving Ground. After debating about landing on the old airstrip, LeVier set the plane down on the lakebed, and all four walked over to examine the strip. The facility had been used during World War II as an aerial gunnery range for Army Air Corps pilots. From the air the strip appeared to be paved, but on closer inspection it turned out to have originally been fashioned from compacted earth that had turned into ankle-deep dust after more than a decade of disuse. If LeVier had atrempted to land on the airstrip, the plane would probably have nosed over when the wheels sank into the loose soil, killing or injuring all of the key fig. ') ures .tn t he u" -L. prOJect路 Bissell and his

all that Groom Lake would the U-2 and training irs Bissell discovered that Groom After co11sumru~ Commission to add the Groom AEC Chairman Adm. its map desThe outlines Area

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are shown on current unclassified maps as a small rectangular area adjoining the northeast corner of the much larger Nevada Test Site. To make the new facility in the middle of nowhere sound more attractive to his workers, Kelly Johnson ca lled it the Paradise Ranch , which was soon shortened to the Ranch . ~·

Area 51, the Ranch

Although the dry lakebed could have served as a la nding strip, project managers dec ided tha t a paved runway was needed so that testing could also take place during the times when rainwate r runoff fro m nearby mountains filled the lake (at suc h times the base acqu ired yet another unofficial name, Watertown Strip). By July 1955 the base was ready, and Agency. Air Force . and Loc kheed perso nne l began movi ng in.

" OSA Hisw0·. chap. 8. pp. ::!-6 (TS Codeword\: Johnoon . "Log for Proj~c t X." " 25 <!9 April 1955: Clarence: L ·· Ke ll y" Johnson with Maggie Sm ith . Kelly: More Thun M• Share nf lr .Hf (Washington. DC: Smithsonian Institute Press. !9H5l. p. 1.23.

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SECURITY FOR THE U-2 PROJECT On 29 April 1955, Richard Bissell signed an agreement with the Air Force and the Navy (which at that time was also interested in the U-2) in which the services agreed that the CIA "assumed primary responsibility for all security" for the overhead reconnaissance project (AQUATONE). From this time on, the CIA has been responsible for the security of overhead programs. This responsibility has placed a heavy burden on the Office of Security for establishing procedures to keep large numbers of contracts untraceable to the Central Intelligence Agency. The Office of Security has also had to determine which contractor employees require security clearances and has had to devise physical security measures for the various manufacturing facilities. Keeping the U-2 and subsequent overhead systems secret has been a time-consuming and costly undertaking. 25 The most important aspect of the security program for the U-2 project was the creation of an entire new compartmented system for the product of U-2 missions. Access to the photographs taken by the U-2 would be strictly controlled, which often limited the ability of CIA analysts to use the products of U-2 missions. The terminology used to describe U-2 aircraft and pilots also played a part in maintaining the security of the overhead reconnaissance program. To reduce the chances of a security breach, the Agency always referred to its high-altitude aircraft as "articles," with each aircraft having its own "article number." Similarly, the pilots were always called "drivers." In cable traffic the aircraft were known as KWEXTRA-00 (the two-digit number identified the precise aircraft; these numbers were not related to the three-digit article numbers assigned by the factory). The pilots were referred to as KWGLITfER-00 (the two-digit number identified the precise pilot). Thus, even if a message or document about overflight activities fell into unfriendly the contents would simply to codewords or at worst to and no indication of the nature of the program. Even the aircraft's onboard emuo1ne1rU the Johnson ordered altimeof CIA that the he ters from the Kollman Instrument

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devices had to be calibrated to 80,000 feet. This immediately raised eyebrows at Kollman because its instruments only went to 45,000 feet. Agency security personnel quickly briefed several Kollman officials and produced a cover story that the altimeters were to be used on experimental rocket planes.~'

THE CIA- AIR FORCE PARTNERSHIP At the initial interagency meetings to establish the U-2 program in December 1954, the participants did not work out a clear delineation of responsibilities between the CIA and the Air Force. They agreed only that the Air Force would supply the engines and the Agency would pay for the airframes and cameras. With a myriad of details still unsettled, CIA and Air Force representatives began to work on an interagency agreement that would assign specific responsibilities for the program. These negotiations proved difficult. Discussions on this subject between DCI Allen Dulles and Air Force Chief of Staff Nathan Twining began in March 1955. Twining wanted SAC, headed by Gen. Curtis E. LeMay. to run the project once the planes and pilots were ready to fly, but Dulles opposed such an arrangement. The CIA-USAF talks dragged on for several months, with Twining determined that SAC should have full control once the aircraft was deployed. Eventually President Eisenhower settled the dispute. "I want this whole thing to be a civilian operation," the President wrote. "If uniformed personnel of the armed services of the United States fly over Russia, it is an act of war-legally-and [don't want any part of it." :s With the issue of control over the program settled, the two agencies soon worked out the remaining details. On 3 August 1955, Dulles and Twining met at SAC headquarters in Omaha to sign the basic ag1reeme:nt, titled "Organization and Delineation of ResponsibilitiesProjecc OILSTONE" (OILSTONE was the Air Force codename for the This gave the Air Force for selection u"'""'"!S· weather and v'·""'auvna• for foreign had a voice in the selection of pilots. All aeronautical

a.,~,,_.'"L"

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project-the construction and testing of the aircraft-remained the exclusive province of Lockheed.:• As a result of this agreement, CIA remained in control of the program, but the Air Force played a very important role as welL As Richard Bissell later remarked about the U-2 project, "The Air Force wasn ' t just in on this as a supporting element, and to a major degree it wasn't in on it just supplying about half the government personnel; but the Air Force held, if you want to be precise, 49 percent of the 30 common stock." One of the first Air Force officers assigned to Project OILSTONE was CoL Osmund J. Ritland . He began coordinating Air Force activities in the U-2 program with Richard Bissell in December 1954. On 27 June 1955, Ritland became Bissell's deputy, although Air Force Chief of Staff Twining did not officially approve this assignment until 4 August, the day after the signing of the CIA-Air Force agreement. In March 1956. Colonel Ritland returned to the Air Force and was followed as deputy project director by CoL Jack A. Gibbs. Osmund J . Ritland

. . - Another Air Force officer. Lt. Col. Leo P. Geary, joined the program in June 1955 and remained with it until August 1966. longer than any of the other project managers. Using the Air Force Inspector General's office as cover with the title of Project Officer. AFCIG -5. Geary served as the focal point for all Defense Department support to the U-2 and OXCART programs. His II years with the overhead reconna issance projects provided a high degree of 3 Air Force continuity. '

TECHNICAL CHALLENGES TO HIGH-ALTITUDE FLIGHT To get the U-2 aircraft ready to fl y, Lockheed engineers had to solve problems never before encountered . Among rhese problems was the need for a fuel that would not boil off and evaporate at the very hig h altitudes fo r wh ich the aircraft was designed. Gen. James H. Doolittle

"' OSA Hiswry, chap. 3. p. 15 and anne.~ 14 (TS Codeword) .

•• Speech given by Ric hard Bissell at CIA H<!adquancrs, 12 October 1965 (TS Cod<!wortll. " Bri g. Gen. L<!o A. Geary (US AF-Ret. ). interview by Donald E. Wdlenbac h. tape rt:· cording. 3 April 1986 (S); OSA Hismr>·. chap. 3, p. 3 tTS Code word ).

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62 (USAF. Ret.), a vice president of the Shell Oil Company who had long been involved in overhead reconnaissance (mosr recently as a member of the Technological Capabilities Panel). arranged for Shell to develop a special low-volatility, low-vapor-pressure kerosene fuel for the craft. The result was a dense mixture, known as LF- 1A, J P-TS (thermally stable), or JP-7, with a boiling point of 300"F at sea level. Manufacturing this special fuel required petroleum byproducts that Shell normally used to make its " Flit" fly and bug spray. In order to produce several hundred thousand gallons of LF-1 A for the U-2 project in the spring and summer of 1955, Shell had to limit the production of Flit, causing a nationwide shortage. Because of the new fuel's density, it required special tanks and modifications to the aircraft's 3 fuel-control and ignition systems. :

Leo P. Geary

Even more important than the problem of boiling fuel was the problem of boiling blood, namely the pilot's. At altitudes above 65,000 feet, fluids in the human body will vaporize unless the body can be kept under pressure. Furthermore, the reduced atmospheric pressure placed considerable stress on the pilot's cardiovascular system and did not provide adequate oxygenation of the blood. Keeping the pilot alive at the extreme altitudes required for overflights therefore called for a totally different approach to environmental equipment; it required a system that could maintain pressure over much of the pilot's body. The technology that enabled U-2 pilots to operate for extended periods in reduced atmospheric pressure would later play a major role in the manned space program. Advising the Agency on high -altitude survival were two highly experienced Air Force doctors, Col. Donald D. Flickinger and Col. W. Randolph Lovelace, n. Dr. Lovelace had begun his research on high-altitude flight before World War fi and was a coinventor of the standard Air Force oxygen mask . In the early 1950s, he and Flickinger made daring parac hute jumps from B-47 bombers to test pilot-survival gear under extreme conditions. Flickinger served as the medical adviser to Project AQUATONE for almost a decade.n Fl ic ki nger and Lo ve lace suggested that the Agency as k the David Clark Company o f Worcester, Massachusetts, manufacturer o f environmental suits fo r Air Force pilocs. ro submit designs for mo re

'' Land interv iew !TS Codeword); Bissd l interview (Sl: James A. Cunningham. Jr . inter路 view by Donald E. Welzenbach. Wash ington. DC. ta pe recording. 4 Octobe( 1983 (TS Codeword ). " OSA Hostory. chap. 10, pp. 29路 34 (TS Codewortl).

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MC-2 partial-pressure suit (seen on pilot Francis Gary Powers)

advanced gear for the U-2 pilots. David Clark expert Joseph Ruseckas then developed a complex life-support system, which was the first partially pressurized •·spacesuit" for keeping humans ali ve for lengthy periods at ultrahigh altitudes. The effort to provide a safe environmenr fo r pilots at high altitudes also invo lved the Firewe l Company of Buffalo, New York, which pressurized the U-2 cockpit to create an interior environment equivalent to the air pressure at an ahi tude of 28,000 feet. The system was designed so that, if the interior cock pit pressure fe ll below the 28,000-feet leve l, the pilot's suit wou ld automaticall y innate. In either case, he could obtain oxygen on ly throug h his helmer. "

" Ibid .. chap. 5. p. 19 tTS Co<.lc:word).

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64 The early models of these MC-2 and MC-3 partial-pressure suits were very uncomfortable for the pilots. To prevent loss of pressure, the heavy coverall had to fit tightly at the wrists and ankles (in the early models of these suits. the feet were not included in the pressurization scheme). The pilot had to wear gloves and a heavy helmet that tended to chafe his neck and shoulders and was prone to fogging. Problems with the pilot life-support system were believed to have been the cause of several early crashes of the U-2. Having gotten a pilot into this bulky suit and shoehorned him into his seat in the cockpit, the next problem was how to get him out in an emergency. The U-2 cockpit was very small, and the early models did not have an ejection seat Even after an ejection seat was installed, pilots were reluctant to use it because they were afraid they would lose their legs below the knees when they were blown out of the cockpit. To save weight, the first pilot's seat was extremely simple with no height adjustment mechanism. Designed for pilots of above-average height, the seat could be adjusted for shorter pilots by inserting wooden blocks beneath the seat to raise it. fn later versions 35 of the aircraft, Kelly Johnson added a fully adjustable seat. The Air Force undertook bailout experiments at high altitudes from balloons in the autumn of 1955 to detennine if the suit designed for the U-2 pilot would also protect him during his parachute descent once he was separated from the life-support mechanisms inside the aircraft. To avoid getting the "bends" during such descents or during the long flights, pilots had to don their pressure suits and begin breathing oxygen at least 90 minutes before takeoff so that their bodies would have time to dissipate nitrogen. This procedure was known as prebreathing. Once the pilots were in their suits. eating and drinkbecame a major problem, as did urination. The first model of the used Lockheed test made no provision for urito be catheterized be~ of urination

of each mission.

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Pilot undergoing prebreathing

To prevent pilots from becoming dessicated during the long missions-a condition aggravated by their having to breathe pure oxygen- provi sion was made for them to drink sweetened water. Thi s was accompli shed by providing a small self-sealing hole in the face mask through which the pilot could push a strawlike tube attached to the water supply. Project personnel also pioneered in the development of ready-to-eat foods in squeezable containers. These were primarily bacon- or cheese-flavored mixtures that the pi lot cou ld squeeze into his mouth us ing the se lf- seali ng ho le in the face mask. Despite all these precautio ns. U-2 pilo ts no rma ll y los t 3 to 6 po und s of body weight during an eight-hour missio n."' Food and wate r were not the only items prov ided to pilots on o verfli ght miss ions: they also rece ived a suic ide pill. Du ring the early 1950s, tales of Sov iet secret po li ce torture o f captured fore ign age nts

â&#x20AC;˘ Informati on suppl ied by Jam~ .~ Cunningham am.! forma U-2 pilo!s Canni ne Vito. Stockman. Ja..:ob Kratt. and Gh:nd<m Dun:~way to Donald E. Wd t.cnbac h. May ftii'l6.

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66 led Bissell and Cunningham to approach Dr. Alex Batlin of Technical Services Division in the Directorate of Plans ;r for ideas to help "captured" U-2 pilots avoid such suffering. Batlin suggested the method used by Nazi war criminal Hermann Goering, a thin glass ampule containing liquid potassium cyanide. He said a pilot had only to put the ampule in his mouth and bite down on the glass: death would follow in LO to !5 seconds. Project AQUATONE ordered six of the poison ampules, called L-pills, and offered one to each pilot just before a mission. It was up to each pilot to decide if he wanted to take an L-pill with him. Some did; most did not Js

DELIVERY OF THE FIRST U-2 On 25 July. less than eight months after the go-ahead call from Trevor Gardner. Kelly Johnson was ready to deliver the first aircraft. known as article 341, to the "Paradise Ranch" site. With its long, slender wings and tail assembly removed. the aircraft was wrapped in tarpaulins. loaded aboard a C-124, and flown to Groom Lake. where Lockheed mechanics spent the next six days readying the craft for its maiden flight. Before '"Kelly's Angel" could actually take to the air, however, it needed an Air Force designator. Col. Allman T. Culbertson from the Air Force's Office of the Director of Research and Development pointed this out to Lieutenant Colonel Geary in July 1955, and the two officers then looked through the aircraft designator handbook to see what the options were. They decided that they could not call the project aircraft a bomber, fighter, or transport plane, and they did not want anyone to know that the new plane was for reconnaissance, so Geary and Culbertson decided that it should come under the utility aircraft category. At the time, there were only two utility aircraft on the books, a U-1 and a U-3. told Culbertson that the Lockheed CL-282 was the

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Arrival of U-2 prototype at Area 57 (left); Article 34 7, the U-2 prototype !below)

John son had designed the U-2 to use the Pratt & Whitney (P&W ) 157/P-3 1 engine. which develo ped l3.000 pounds of thru st and weighed 3.820 pounds. giv ing it a power-to-wei ght ratio of 3.4: I. When the U-2 first took to the air. however. these engines were not available because the entire produc tion was needed to power specially configu red Canberra RB-57 Ds for the Air Force. The first U-2s therefore used P& W 15 7/P-37 e ngines, which were 276 pounds heavier and delivered only 10.200 pounds of thrust at sea level: the resulting

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68 power-to-weight ratio of 2.7: I was almost 20 percent less efficient than the preferred P-31 version."'' To conduct lengthy missions over hostile territory, the U-2 needed to carry a large amount of fueL Kelly Johnson used a "wet-wing" design for the U-2, which meant that fuel was not stored in separate fuel tanks but rather in the wing itself. Each wing was divided into two leak-proof compartments, and fuel was pumped into all the cavities within these areas; only the outer 6 feet of the wings were not used for fuel storage. The U-2 also had a 100-gaflon reserve tank in its nose. Later, in 1957, Johnson increased the fuel capacity of the U-2 by adding 100-gallon "slipper" tanks under each wing, projecting slightly ahead of the leading edge. One of the most important considerations in the U-2's fuel system was the need to maintain aircraft trim as the fuel was consumed. The aircraft therefore contained a complex system of feed lines and valves draining to a central sump, which made it impossible to provide the pilot with an empty/full type of fuel gauge. None of the first 50 U-2s had normal fuel gauges. Instead there were mechanical fuel totalizer/counters. Before the start of a mission, the ground crew set the counters to indicate the total amount of fuel in the wings, and then a flow meter subtracted the gallons of fuel actually consumed during the flight The pilot kept a log of the fuel consumption shown by the counters and compared it with estimates made by mission planners for each leg of the flight As a double check, U-2 pilots also kept track of their fuel consumption by monitoring airspeed and time in the air. Most pilots became quite expert at this. Several who did not came up short of their home base during the 20 years these planes were flown:'

INITIAL TESTING OF THE U-2

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69 followed on 1 Augu:;t. LeVier accelerated to 70 knots and began to try the ailerons. "'It was at this point that I became aware of being airborne:路 LeVier noted afterward. "which left me with utter amazement. as I had no intentions whatsoever of flying. I immediately started back toward the ground, but had difficulty determining my height because the lakebed had no markings to judge distance or height. I made contact with the ground in a left bank of approximately 10 degrees." The U-2 bounced back into the air, but LeVier was able to bring it back down for a second landing. He then applied the brakes with little eftect, and the aircraft rolled for a long distance before . commg to a stop. ~.:::

Bissell, Cunningham. and Johnson saw the aircraft fall and bounce. Leaping into a jeep. they roared off toward the plane. They signaled to LeVier to climb out and then used fire extinguishers to put out a tire in the brakes. At a debriefing session that followed. LeVier complained about the poor performance of the brakes and the absence of markings on the runway. Damage to the prototype U-2 was very minor: blown tires. a leaking oleostrut on the undercarriage. and damaged brakes. This unplanned flight was but a foretaste of the airworthiness of the U-2. New pilots all had difficulty in getting the U-2's wheels on the ground because at !ow speeds it would remain in ground effect and glide efforth.:ssly above the runway for great distances. Taxi trials continued for one more day and were followed by the first planned flight on 4 August 1955. LeVier was again at the controls and had been instructed by Kelly Johnson to land the U-2 by making initial contact with the main or forward landing gear and letthe plane settle back on the rear wheel LeVier had disagreed with this that the U-2 would bounce if he tried to

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First flight of the U-2, 4 August 1955

With Kelly Johnson watching from a chase plane and giving a constant stream of instructions. LeVier made three more unsuccessful landing atrempts. With the light fading and a thunderstorm fast approaching from the mountains to the west. LeVier made one last approach using the method he had advocated: letting the aircraft touch on its rear whee l first. This time the U-2 made a near-perfect landing, which came just in the nick of time. Ten minutes later, the thunderstorm began dumping an unheard-of 2 inches of rain , flooding the dry lakebed and making the airs trip unusable:) Now that the fi rst prob lems in flying and landing the U-2 had been worked our. Ke lly Johnson scheduled the "o ffic ial" first Righ t for 8 August 1955 . This time outsiders were present, including Richard Bissell. Col. Osmond Ritland. Richard Homer. and Garrison Norton. T he U-2 flew to 32,000 feet and performed very well. Kelly Johnson had met his eight-month deadline.'"'

" lbi<.i .. pp. 21-2:!; J<)hn~on , "Log for ProJeCt X." -l Augu'l 1955. ~

Johnson. "Log for

Projc~t

X...

a August

19:55

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Chapter 2

LeVier made an additional 19 flights in article 341 before moving on to other Lockheed tlight test programs in early September. This first phase of U-2 testing explored the craft's stall envelope. took the aircraft w its maximum stress limit (2.5 g's), and explored its speed potential. LeVier soon flew the aircraft at its maximum speed of Mach 0.85. Flight tests continued, with the U-2 ascending to altitudes never before attained in sustained flight. On 16 August LeVier took the aircraft up to 52,000 feet. [n preparation for this flight, the 42-year-old test pilot completed the Air Force partial-pressure suit training program, becoming the oldest pilot to do so. Testing at even higher altitudes continued, and on 8 September the U-2 reached its initial design altitude of 65,600 feet. ~s On 22 September 1955. the U-2 experienced its first flameout at 64,000 feet-more than 12 miles up. After a brief restart, the 1571 P-37 engine again tlamed our at 60,000 feet, and the aircraft descended to 35,000 feet before the engine could be relit Engineers from Pratt & Whitney immediately set to work on this problem. The P-37 model engine had significantly poorer combustion characteristiq than the preferred but unavailable P-31 version and therefore tended to flame out at high altitudes. Combustion problems usually became apparent as the U-2 began the final part of its climb from 57,000 to 65,000 feet, causing pilots to refer to this area as the "badlands" or the "chimney." Flameouts bedeviled the U-2 project until sufficient numbers of the more powerful P-31 engines became avail4 able in the spring of 1956. â&#x20AC;˘ Meanwhile, with the airworthiness of the U-2 airframe proven, Lockheed set up a production line in the Skunk Works, but delivery of even the second-choice 157/P-37 became a major problem. Pratt & Whitney's full production for these engines for the next year was contracted to rhe Air Force for use in F-1 00 and KC-135 tankers. Colonel with the help of a

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As the deliveries of U-2 airframes to the testing site increased, a major logistic problem arose: how to transfer Lockheed employees from Burbank to Area 51 without arousing a great deal of curiosity. The project staff decided that the simplest approach would be to fly the essential personnel to the site on Monday morning and return them to Burbank on Friday evening. Frequent flights were also necessary to bring in supplies and visitors from contractors and headquarters. Therefore, a regularly scheduled Military Air Transport Service (MATS) 11ight using a USAF C-54 aircraft began on 3 October 1955. James Cunningham promptly dubbed this activity .. Bissell's Narrow-Gauge Airline." Less than seven weeks after it started, a MATS aircraft bound for Area 51 crashed on 17 November. killing all 14 persons aboard the plane, including the Project Security Officer. CIA's William H. Marr. four members of his staff, and personnel from Lockheed and Hycon. This crash represented the greatest single loss of life in the entire U-2 program!'

U-2s, UFOs, AND OPERATION BLUE BOOK High-altitude testing of the U-2 soon led to an unexpected side effect-a tremendous increase in reports of unidentified flying objects (UFOs). fn the mid-1950s, most commercial airliners flew at altitudes between 10.000 and 20.000 feet and military aircraft like the B-47s and B-57s operated at altitudes below 40.000 feet. Consequently. once U-2s started flying at altitudes above 60,000 feet, air-traffic controllers began receiving increasing numbers of UFO reports. Such reports were most prevalent in the early evening hours from pilots of airliners flying from east to west. When the sun dropped below the horizon of an airliner flying at 20,000 feet. the plane was in darkness. But, if a U-2 was airborne in the vicinity of the airliner at the same its horizon from an altitude of 60.000 feet

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73 Not only did the airline pilots report their sightings to air-traffic controllers. but they and ground-based observers also wrote letters to the Air Force unit at Wright Air Development Command in Dayton charged with investigating such phenomena. This, in turn, led to the Air Force's Operation BLUE BOOK. Based at Wright-Patterson, the operation collected all reports of UFO sightings. Air Force investigators then attempted to explain such sightings by linking them to natural phenomena. BLUE BOOK investigators regularly called on the Agency's Project Staff in Washington to check reported UFO sightings against U-2 flight logs. This enabled the investigators to eliminate the majority of the UFO reports, although they could not reveal to the letter writers the true cause of the UFO sightings. U-2 and later OXCART flights accounted for more than one-half of all UFO reports during the late 1950s and most of the 1960s.w

HIRING U-2 PilOTS In authorizing the U-2 project President Eisenhower told DC! Dulles that he wanted the pilots of these planes to be non-US citizens. It was his belief that, should a U-2 come down in hostile territory, it would be much easier for the United States to deny any responsibility for the activity if the pilot was not an American. The initial effort to find U-::! pilots was assigned to the .:.=路路.-.:.路..:.:: [)ivision (Aj\1[)): The[)DP had ex-

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74 for an Air Force officer of stay with the group during a preliminary training to use foreign soon program at Air Force Base. The ran into trouble when passed the school and reported to Area 51. They made only a few flights in the 511 U-2, and by the autumn of 1955 they were out of the program. Even before the elimination of it was clear that there would not be enough trained foreign pilots available in time for de路 ployment. Bissell therefore had to start the search for U-2 pilots all over again. Lt. Gen. Emmett (Rosy) O'Donnell, the Air Force's Deputy Chief of Staff for Personnel, authorized the use of Air Force pilots and provided considerable assistance in the search for pilots who met the high standards established by the Agency and the Air Force. The search included only SAC fighter pilots who held reserve commissions. The use of regular Air Force pilots was not considered because of the complexities involved in having them resign from the Air Force, a procedure that was necessary in order to hire them as civilians for the AQUATONE project. SAC pilots interested in the U-2 project had to be willing to resign from the Air Force and a.Ssume civilian status-a process known as sheep-dipping-in order to conduct the overflights. Although Air Force pilots were attracted by the challenge of flying over hostile territory, they were reluctant to leave the service and give up their seniority. To overcome pilots' reluctance, the Agency offered handsome salaries, and the Air Force promised each pilot that, upon satisfactory conclusion of his employment with the he could return w his unit In the meantime, he would be considered for promotion along with his contemporaries who had continued their Air Force careers."

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75 28 November 1955. The CIA's insistence on more stringent physical and mental examinations than those used by the Air Force to select pilots for its U-2 fleet resu Ited in a higher rejection rate of candidates. The Agency's selection criteria remained high throughout its manned overtlight program and resulted in a much lower accident rate for 5 CIA U-2 pilots than for their counterparts in the Air Force program. '

PILOT TRAINING Even before the recruiting effort got under way. the Air Force and CIA began to develop a pilot training program. Under the terms of the OILSTONE agreement between the Agency and the Air Force, responsibility for pilot training lay with SAC. This essential activity was carried out under the supervision of CoL William F. Yancey. who was assigned to March AFB and flew to nearby Area 51 each day. Colonel Yancey was in charge of six SAC pilots who were to be trained by Lockheed test pilots to fly the U-2. Once they became qualified, these SAC pilots would become the trainers for the 路~sneep-dipped" formt:r Reserve SAC pilots. who would fty U-2 missions for the CIA. The original U-2 test pilot. Tony LeVier. trained several other Lockheed test pilots in the difficult art of flying the U-2. Eventually there were enough trained Lockheed pilots available to test the aircraf拢 coming off the assembly line and also train the SAC pilots. Training was difficult because there was no two-seat model of the U-2. All instruction had to be given on the ground before takeoff and then over the radio once the craft was airborne. Almost 15 years elapsed before a two-seat U-2 was available for training new pilots. the difficulties involved in training U 路2 pilots. Colonel had a cadre of six qualified Air Force U-2 1955. These were now to train the lots."

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76 and could not survive the stresses of loops and barrel rolls. Moreover. the original U-2s were placarded. which meant that they could not be flmvn at sea level faster than 190 knots in smooth air or 150 knots in rough air. At operational altitude. where the air was much less dense. they could not exceed Mach 0.8 (394 knots). Speeds in excess of these limits could cause the wings or tail section to fall off. Airspeed was a very critical factor for the U-2. At maximum altitude only 6 knots separated the speeds at which low-speed stall and high-speed buffet occurred. Pilots called this narrow range of acceptable airspeeds at maximum altitude the "coffin corner" because at this point the U-2 was always on the brink of falling out of the sky. If the aircraft slowed beyond the low-speed stall limit. it would lose lift and begin to fall. causing stresses that would tear the wings and tail off. A little too much speed would lead to buffeting. which would also cause the loss of the wings or rail. Flying conditions such as these required a U-2 pilot's full attention when he was nm using the autopilot. Airspeed was such a critical factor that Kelly Johnson added a vernier adjustment to the throtr!e to allow the pilot to make minute alterations to the fuel supply.~路 Among the unique devices developed for the U-2 was a small sextant for making celestial "fixes .. during the long overflights. Because cloud cover often prevented U-2 pilots from locating navigational points on the earth through the periscope. the sextant turned out to be the pilots' principal navigational instrument during the first three years of deployment. When clouds were not a factor. however. the periscope proved highly accurate for navigation. During the final tests before the aircraft became operationaL U-2 pilots found they could navigate by dead reckoning with an error of less than I nautical 5 mile over a I .000-nm course. '

FINAL TESTS OF THE U-2

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A-2 camera being installed in U-2

have CIA act as executive agent for this transaction, which the Air Force called Project DRAGON LADY. To maintain secrecy. the Air Force transferred funds to the CIA, which then placed an order with Lockheed for 29 U-2s in configurations to be determined by the Air Force. The Air Force later bought two more U-2s, for a total of 31. The aircraft purchased for the Air Force were known as the 1 Follow-On Group, which was soon shortened to FOG. â&#x20AC;˘ Once enoug h pilots had been trained, Project AQUATONE man agers co ncentrated on c hec ki ng out the co mple te U-2 sys tem : pl anes. pi lots, na vigation syste ms . life-s upport systems. and cameras. From 10 through 14 April 1956. U-2s equipped with A-2 cameras took off from Aren 51 and made eight overfl ights of the United Staces in order to test the various fligh t nnd camera systems as part o f the standard Air Force Operntional Readiness Inspection. Colone l Ynncey and hi s detachme nt served as observers during th is weeklo ng exe rcise .

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U-2 detachment in formation over Nevada

Colonel Yancey's group carefully examined all aspects of the U-2 unit from flight crews to camera technicians and mission programmers. When the exercise was over, Yancey reported that the detachment was ready for deployment. He then briefed a high-level Pentagon panel that included the Secretary of the Air Force and the Chief of Air Staff. These officials concurred with Yancey's determination that the U-2 was ready for deployment.H During these final tests in the spring of 1956, the U-2 once again demonstrated its unique airworthiness. On 14 April 1956, James Cunningham was sitting in his office in Washington when he received a call from Area 51 informing him that a westward-bound U-2 had experienced a flameout over the Mississippi River at the western border of Tennessee. After restarting his engine, the pilot reported a second flameout and engine vibrations so violent that he was unable to get the power plant to start again. Early in the program Bissell and Ritland had foreseen such an emergency and, with the cooperation of the Air Force, had arranged for sealed orders to be delivered to every airbase in the continental United States giving instructions about what to do i f a U-2 needed to make an emergency landing. Cun ningham had the project office ask the pilot how far he could g lide so they could dete rmine whic h SAC base sho uld be alerted. The piloc, who by this time was ove r Arkansas . rad ioed back that, given the prevaili ng winds and the U-2 's 21: I g lide ratio, he thoug ht he cou ld reach Albu querq ue. New Mexico. Withi n min utes Cun ningham was on the phone tO Co lonel Geary in the Pe ntagon. who the n had the Ai r Force's Ass iscant Di recto r of Opera ti o ns. Brig. Ge n. Ra lph E_

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Koon, call the commander of Kirtland AFB near Albuquerque. General Koon told the base commander about the sealed orders and explained that an unusual aircraft would make a deadstick landing at Kirtland within the next half hour. The general then instructed the base commander to have air police keep everyone away from the craft and get it inside a hanger as quickly as possible. After a half hour passed, the base commander called the Pentagon to ask where the crippled aircraft was. As he was speaking, the officer saw the U-2 touch down on the runway and remarked, .. It's not a plane, it's a glider!" Even more surprised were the air police who surrounded the craft when it came to a halt. As the pilot climbed from the cockpit in his "space" suit, one air policeman remarked that the pilot looked like a man from Mars. The pilot, Jacob Kratt, later reported to Cunningham that. from the beginning of the first flameout until the landing at Albuquerque, the U-2 had covered 58 over 900 miles. including more than 300 by gliding. Aside from this extraordinary gliding ability, however, rhe U-2 was a very difficult aircraft to fly. Its very light weight, which enabled it to achieve extreme altitude, also made it very fragile. The aircraft was also very sleek, and it sliced through the air with little drag. This feature was dangerous, however, because the U-2 was not built to withstand the G-forces of high speed. Pilots had to be extremely careful to keep the craft in a slightly nose-up attitude when flying at operational alritude. If the nose dropped only a degree or two into the nose-down position, the plane would gain speed at a dramatic rate, exceeding the placarded speed limit in less than a minute, at which point the aircraft would begin to come apart. Pilots, therefore, had to pay close attention to the aircraft's speed indicator because at 65,000 feet there was no physical sensation of speed, without objects close at 9 hand for the eye to use as a reference.j

THREE FATAL CRASHES IN 1956

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80 wings parallel to the ground during takeoff. Once airborne, Rose made a low-level pass over the airstrip and shook loose the lefthand pogo. When he attempted to make a righthand turn to come back over the runway to shake loose the remaining pogo. Rose stalled the U-2 and it plunged to earth, disintegrating over a wide area. Three months later, on 31 August 1956. a second fatal crash occurred during a night-flying exercise. Frank G. Grace stalled article 354 at an altitude of about 50 teet when he tried to climb too steeply at takeoff. The craft fell. cartwheeled on its left wing. and struck a power pole near the runway. i'vtore experienced U-2 pilots always cut back abruptly on the throttle as soon as the pogo sticks fell away in order to avoid such stalls. Before the year was out, two more U-2s were destroyed in crashes, one of them fatal. On 17 September I956, article 346 lost part of its right wing while on its takeoff ascent from Lindsey Air Force Base in Wicsbaden. Germany. The aircraft disintegrated in midair. killing pilot Howard Carey. The loss of article 357 on 19 December 1956 resulted from pilot hypoxia. A small leak prematurely depleted the oxygen supply and impaired Robert J. Ericson's judgment as he flew over Arizona. Because of his inability to act quickly and keep track of his aircraft's speed. the U-2 exceeded the placarded speed of 190 knots and literally disintegrated when it reached 270 knots. Ericson managed to jettison the canopy and was sucked out of the aircraft at 28,000 feet His chute opened automatically at 15,000 feet, and he landed without injury. The aircraft was a total loss.""

COORDINATION OF COllECTION REQUIREMENTS of the U-2 program, it was apparent that task force or would be needed to and coordinate collection ntPâ&#x20AC;˘r"'T"'"'rv

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and plan missions in view of priority and feasibility, to maintain the operation on a continuing basis, and to carry out the dissemination of the resulting information in a manner consistent with its special security requirements."' When the U-2's development and testing approached completion, Land's recommendation was put into effect. Following a meeting with Deputy Secretary of Defense Donald Quarles and Trevor Gardner (who had been promoted from his special assistant post to become Assistant Secretary of the Air Force for Research and Development), Richard Bissell established an Ad Hoc Requirements Committee (ARC) on I December 1955. He then named James Q. Reber to be Intelligence Requirements Officer for the U-2 project and chairman of the ARC. Reber was already experienced in coordination with other intelligence agencies, for he had headed the Directorate of Intelligence Dl Office of Intelligence Coordination for four years. The first full-scale ARC meeting took place on I February 1956 with representatives from the Army, Navy, and Air Force present. Attending for the CIA were representatives from the Oftice of Research and Reports (ORR) and the Office of Scientific Intelligence James Q. Reber (<!,Sf). The CIA membership later expanded to include the Office of Current Intelligence (OCI) and a representative from the Directorate of Plans. In 1957 the National Security Agency (NSA) also began sending a representative. The State Department followed suit in 1960. although it had been receiving reports from the committee all along.'~ ARCs main task was to draw up lists of collection requirements. primarily for the U-2. but also for other means of collection. These lists prioritized targets according to their ability to meet the three major national intelligence objectives concerning the Soviet Union in the mid-1950s: long-range bombers. guided missiles, and nuclear energy. The committee issued its list of targets for the use of the entire intel!i~ gence community using all available means of collection, not just for the CIA with the U-2.'j

" OSA Ho.: Rctjuiremcnt' Ctlmmitre:e of I February I lotd !tg.:nce ' ' Minute s of the IIC) Staff 33路B路I lA. box I "ARC Minutes. ~lemorandum for Joint Study from JJmes Q. Reber. "Handling ,..,,.;r,.rn""''' for the U<:!: 路 I August 1960. !C records. job JJ.T. f:D A. b(l\ 10.

!General)'' (TS Codeword!

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82 ARC gave the top priority target list to the Project Director, and the projecr staff's operations section then used the list to plan the flightpaths for U-2 mission s. Although the requirements committee was not responsible for developing flight plans, it assisted the planners with detailed target information as required. When a flight plan was ready for submission to the President for approval, the committee drew up a detailed justification for the selection of the targets. This paper accompanied the flight plan.("' [n developing and pnont1zmg lisrs of targets, the committee members had to take into account the varying needs and interests of their parent organizations. Thus, the CIA representatives generally emphasized strategic intelligence: aircraft and munitions facrories , power-generating complexes. nuclear establishments, roads. bridges. inland waterways. In contrast. the mi!irary services usually placed a heavier emphasis on order-of-battle data. The Air force, in particular. had a strong interest in gathering intelligence on the location of Soviet and East European airfields and radars. Arthur C. Lundahl

Although the commitcee members kept the interests of their services or agencies in mind. their awareness of the vital nature of their mission kept the level of cooperation high. The group always attempted to reach a consensus before issuing its recommendations, although occasionally this was not possible and one or more agencies would add a dissent to the recommendation of the committee as a whole ."~

PREPARATIONS TO HANDLE THE PRODUCT OF U-2 MISSIONS On 13 December 1954, DCI Allen Dulles and his assistant, Richard

Bissell, briefed Arthur C. Lu ndahl, the chief of CIA's Photo~ Intelligence Division (PID}, on Proj ect AQUATONE. At DCI Dulles's direction, Lundahl immediately set in motion withi n his division a compartmented effort, known as Project EQUINE. to plan for the explo itation of overhead photography from the U-2 project. With only 13 members. the PID staff was too small ro handle the expected

.. Ibid.: James Q. Reber. interview by DonaiJ E. W.:il.l!nbach and Gregory W. Pedlow. Washington, DC, 21 May 1987 ($).

"' R.:ber intervi.:w (S).

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The Steuart Building, home of the Photo -Intelligence Division

flood of photographs that the U-2 would bring back. so in May 1955 the:_ Directorate of Support (OS) authorized expanding PID to 44 persons. Soon afterward the division moved from its room in M Building to larger quarters in Que Building . The Photo-Intelligence Division continued to expand in anticipation of large quantities of U-2 photography. Its authorized strength doubled in Janu ary 1956 when a new project known as HTAUTOMAT came into existence to exploit U-2 photography. All of the products from thi s project would be placed in the new control system. By the summer of 1956, the PID had moved to larger quarters in the Steuart Building at 5th Street and New York Avenue. NW. PID photointerpreters had already begun !0 work with U-2 photography followin g a series of mi ssio ns in April 1956, when U-2s photographed a number of US ins tallatio ns that were cons idered ana logous to high -priori ty Soviet installations. As a res ul t of these preparatio ns, PID was ready for the mass o f photography that bega n co ming when U-2 operations commenced in the summer of 1956.""'

For :1 more d.:t:Ii lc!d his wry of photoim.:rpretarion in the C IA. se~ iThe National Plwwg ruphic lwerp retation Cettter. vo l. I. Antecedenli 路an!r Eiii{v Yean. Director:He of Science and Technology Hi"oricaf Series NPlC-2. December 1972. pp.

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â&#x20AC;˘ Project GENETRIX balloon launch ~

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THE IMPACT OF THE AIR FORCE PROJECT GENETRIX BALLOONS

While the Agency was making its final preparations for U-2 overtlights. the Air Force sta rted a reconnaissance projec t that wou ld cause considerable protest around the world and threaten the existence of the U-2 overtlight program before it even began . Project GENETRI X invo lved the use of camera-carryi ng balloons to obtain high-altitude photography of Eastern Europe. !he Soviet Union. and

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~ 85 the People's Republic of China. This project had its origins in a RAND Corporation study from 1951. By the end of 1955, the Air Force had overcome a number of technical problems in camera design and recovery techniques and had manufactured a large number of balloons for use in the project. President Eisenhower gave his approval on 27 December 1955, and two weeks later the launches from bases in Western Europe began. By the end of February 1956, the Air Force 1 had launched a total of 516 balloons." Project GENETRIX was much less successful than its sponsors had hoped. Once launched, the balloons were at the mercy of the prevailing winds, and many tended to drift toward southern Europe and then across the Black Sea and the desert areas of China. These balloons therefore missed the prime target areas, which lay in the higher latitudes. Large numbers of balloons did not succeed in crossing the Soviet Union and China, some because they were shot down by hostile aircraft, others because they prematurely expended their ballast supplies and descended roo soon. Only 46 payloads were eventually recovered (one more than a year later and the last not until 1958) from the 516 balloons that had been launched. In four of these pay.loads the camera had malfunctioned. and in another eight the photography was of no intelligence value. Thus, only 34 balloons succeeded in obtaining useful photographs.'" The low success rate of the Project GENETRIX balloons was not the only problem encountered; far more serious was the storm of protest and unfavorable publicity that the balloon overflights provoked. Although the Air Force had issued a cover story that the balloons were being used for weather research connected with the lnternational Geophysical Year, East European nations protested strongly to the United States and to international aviation authorities, claiming that the balloons endangered civilian aircraft The Soviet Union sent worded notes to the United Stares and the nations from which the balloons had been launched, The Soviets also

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Photograph of Oodonovo Atomic Energy complex taken by a Project GENETRIX balloon

All of this publicity and protest led President Eisenhower to conclude that .. the balloons gave more legitimate grounds for irritation than could be matched by the good obtained from them.·· and he ordered the project halted. On 7 February 1956 Secretary of State Dulles informed the Soviet Union that no more "weather research ·· balloons would be released. but he did not offer an apology for the over ft .1g hts. 70 Despite the furor cau sed by GENETR IX . Air Force Chief of Staff Twini ng proposed yet another bal loo n project only five weeks later, in mid -March 1956. Th is project would employ e ven higher Rying balloo ns than GEN ETR IX and would be ready in 18 mo nth s. Pres ident Eisenhower informed the Air Force. however, that ht: was .. not imerested in any more balloons ... ' ' " Andre w J. Goo<:J pa~ tcr. Memorandum fnr the Rcc·orJ , " 10 Fc: bruary 1956 Conli!rence o f

Jo inr Chids of Sr~ IT with the Pn:s idcnr. " WHOSS . Alph~ . DDEL iT S. d~cla,s iticd 191\0 i: Stephen E. Ambrose . Eisenho ...er. Th e Pre.,iJeltt ,,}!. 2 t<"cw York : Sim<Jn and Sch uster. 1984).

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Although the photo intelligence gained from Project GENETRIX was limited in quantity, it was still some of the best and most complete photography obtained of the Soviet Union since World War IL It was referred to as "pioneer" phmography because it provided a baseline for all future overhead photography. Even innocuous photos of such things as forests and streams proved valuable in later years when U-2 and satellite photography revealed construction activity. Of still greater importance to the U-2 program, however, was the daca that US and NATO radars obtained as they tracked the paths of the balloons-whose average altitude was 45,800 feet-over the Soviet Bloc. This data provided the most accurate record to date of high-altitude wind currents, knowledge that meteorologists were later able to put to use to determine optimum flightpaths for U-2 flights. One completely fortuitous development from Project GENETRIX had nothing to do with the cameras but involved a steel bar. This bar served a dual purpose: the rigging of the huge polyethylene gasbag was secured to the top of the bar and the camera-payload and automatic-ballasting equipment was anached to the bottom. By sheer chance, the length of the bar-91 centimeters-corresponded to the wavelength of the radio frequency used by a Soviet radar known by its NATO designator as TOKEN. This was an S-band radar used by Soviet forces for early warning and ground-controlled intercept. The bar on the GENETRIX balloons resonated when struck by TOKEN radar pulses, making it possible for radar operators at US and NATO installations on the periphery of the Soviet Union to locate a number of previously unknown TOKEN radars. These radar findings, coupled with other intercepts made during rhe balloon flights, provided extensive data on Warsaw Pact radar netradar sets, and ground-controlled interception of these revealed the altitude

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88 These positive results from Project GENETRlX did not outweigh the political liabilities of the international protests. CIA officials be路 came concerned that the ill will generated by balloon overtlights could sour the Eisenhower administration on all overflights, including those by the U-2, which was just about ready for deployment. Therefore. DDCI Cabell wrote to Air Force Chief of Staff Twining in February 1956 to warn against further balloon flights because of the "additional political pressures being generated against all balloon operations and overflights, thus increasing the difficulties of policy decisions which 11 would permit such operations in the future." In addition to its concern for the future of the U-2 program, the Agency feared that Presidenr Eisenhower's anger at balloon overflights might result in the curtailment of the balloon program that the Free Europe Committee-a covert Agency operation based in West Germany-used to release propaganda pamphlets over Eastern Europe.

AOUATONE BRIEFINGS FOR SELECTED MEMBERS OF CONGRESS Although knowledge of the U-2 project was a closely guarded secret within both the Agency and the Eisenhower administration. DCI Dulles decided that a few key members of Congress should be told about the project. On 2-+ February I 956, Dulles met with Senators Leverett Saltonstall and Richard B. Russell, the ranking members of the Senate Armed Services Committee and its subcommittee on the CIA. He shared with them the details of Project AQUATONE and then asked their opinion on whether some mem路 bers of the House of Representatives should also be informed. As a result of the senators' recommendation that the senior members of the House Committee should be briefed. Dulles later John Taber

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THE U-2 COVER STORY alf'WOimunel>S tests, on a cover story for overseas operations. lt was important to have a plausible reason desuch an unusual plane, whose glider and odd landing were certain to arouse Bissell the deployment of the was an ostensible weather research the National Committee on (NACA). Such a cover however, needed the Air Force intel""<''"'-'"â&#x20AC;˘ the Air Weather Service, the Third Air Force, Seventh ofticer, the Air Headquarters Division, the SAC project officer, and NACA's top official. Dr. Hugh Dryden. Moreover, the CIA Committee was consulted about the cover plan. CIA officials and the other agencies involved in provid. ing cover for the approved the final version of the overall cover at the end of March 1956. The staff then began working on contingency plans for the loss a U-2 over hostile Bissell advised the cover officer to "produce a document which sets forth all actions to be taken ... not only press releases and the public line to be but the and at least an the diplomatic action .... We should at least make the in this case to be for the worst in a

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90 used in various scenarios, including one in which the pilot was captured. Even in such a case, however, the proposed policy was for the United States to stick to the weather research cover srory, a course of 75 action that would prove disastrous in May !960.

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U-2 Operations in the Soviet Bloc and Middle East, 1956-1968

By January 1956, everyone working on Project AQUATONE could see that the U-2 was nearing the time for operational deployment. During tests the aircraft had met all the criteria established in late 1954. Its range of 2,950 miles was sufficient to overfly continents, its altitude of 72,000 feet was beyond the reach of all known antiaircraft weapons and interceptor aircraft, and its camera lenses were the finest available. Because the main targets for the U-2 lay behind the Iron Curtain, Bissell and his staff began looking for operational bases in Europe. The United Kingdom, America's closest ally, seemed the logical choice for U-2 bases, and, on 10 January 1956, Bissell flew to London to discuss the matter with Royal Air Force (RAF) and MI-6 officials. Their initial response was favorable, but they told Bissell that the proposal needed approval at a much higher level.

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THE DEPLOYMENT OF DETACHMENT A TO LAKENHEATH The first Agency U-2 detachment. consisting of four aircraft and pilots, was known publicly as the I st Weather Reconnaissance Squadron, Provisional (WRSP-1 ). The "provisional" designation gave the U-2 detachments greater security because provisional Air Force units did not have to report to higher headquarters. WRSP-l, known within the Agency as Detachment A, began deploying to the United Kingdom on 29 April 1956. By 4 May. all of the detachment's personnel and equipment, including four aircraft. had arrived at Lakenheath.' Shortly after deployment, on 7 May, the National Advisory Committee on Aeronautics (NACA) released an unclassified U- 2 cover story stating that a Lockheed-developed aircraft would be flown by the USAF Air Weather Service to study such high-altitude phenomena as the jet stream, convective clouds, temperature and wind structures at jet-stream levels, and cosmic-ray effects up to 55,000 feet.J Before overflights could begin from Lakenheath, however, several incidents occurred that dampened Prime Minister Eden's interest in having the U-2s on British territory. In mid-April 1956. a Soviet naval squadron brought Soviet leaders Nikita Khrushchev and Nikolai Bulganin on an official visit to the United Kingdom. Although the ships were docked in Portsmouth Harbor, a British counterintelligence operative and underwater expert, retired Royal Navy Commander Lionel Crabb, apparently undertook a mission to examine the hulls of these vessels but vanished in the process. His headless body was later found washed up on a beach. This so-called Frogman from Moscow Incident caused an uproar in Parliament and a that soured relations between the United Kingdom and the Soviet the

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95 same time, Richard Bissell learned that the State Department had told Prime Minister Eden that only one U-2 was based at Lakenheath, when in reality there were four:

THE MOVE TO WIESBAOEN To avoid arousing further reaction in the United Kingdom and to begin the program of U-2 overflights beyond the Iron Curtain without further delay, Bissell moved Detachment A on 11 June 1956 to Wiesbaden, one of the busiest airfields in West Gennany, without notifying West Gennan authorities. The derachment commander, Col. Frederick McCoy, was disappointed in his hope that the redeployment of the U-2s could be accomplished without drawing undue attention. The strange-looking planes, with bicycle-type wheels and wings so long they touched the ground after landing, aroused considerable interest. Wiesbaden was to be only a temporary home for Detachment A; the Air Force began preparing Giebelstadt near the East Gennan border for use by the U-2s. Giebelstadt was an old World War II airbase that had been one of the launching sites for the GENETRIX 5 balloons. Soon after the four U-2s arrived in Wiesbaden, they were refitted with the more powerful J571P-31 engines. The new engines were better suited for operations behind the Iron Curtain because they were less likely to suffer ftameoUÂŁs than the earlier model. Once the new 6 engines were installed, the aircraft received the designation U-2B. Bissell was anxious to get the overflights started by late June because SAC weather experts had predicted that the best weather for photographing the Soviet Union would be between 20 June and 10 July. Bissell, however, had not yet received final authorization from President Eisenhower to of the Soviet Union. On 28 when DCI Allen Dulles mer with the President to discuss Eisenhower still made no decision Dulles Air Force Chief

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Nathan Twining prepared a paper for the President outlining "AQU ATONE Operational Plans." In the meantime, President Eisenhower had entered Walter Reed Hospital for tests for an abdominal ailment that turned out to be ileitis, requiring an oper.Ition. During his recovery from surgery. Eisenhower would make his final decision 7 on the overflight program.

PRESIDENT EISENHOWER'S ATTITUDE TOWARD OVERFLIGHTS The President had mixed feelings about overtlights of the Soviet Union. Aware that they could provide extremely valuable intelligence about Soviet capabilities, he. nevertheless. remained deeply concerned that such flights brought with them the risk of starting a war. From the very beginning of the U-2 program, President Eisenhower had worked to minimize the possibility that overflights could lead to hostilities. He had always insisted that overflights by military aircraft were too provocative, and in 1954 he had therefore supported the Land committee's proposal for an unarmed civilian aircraft instead of the military reconnaissance planes favored by the Air Force. For the same reason, Eisenhower had resisted attempts by the Air Force to take the U-2 program away from the CIA in 1955. In fact. the President's desire to avoid secret reconnaissance missions over the Soviet Union, with all their risks. led him to make his famous ''Open Skies" proposal in the summer of !955. when the U-2 was still under development but making good progress. At the Geneva summit conference on 21 July 1955. President Eisenhower offered to provide airfields and other facilities in the United States for the Soviet Union to conduct aerial photography of all US military inif the Soviet Union would provide the United States with similar facilities in Russia. Not Soviet leader Nikiia Khrushchev almost

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Even though President Eisenhower had approved every stage of the U-2's development, knowing full well that the aircraft was being built to fly over the Soviet Union, the actual decision to authorize such flights was very difficult for him. He remained concerned that overflights could poison relations with the Soviet Union and might even lead to hostilities. One argument that helped overcome the President's reluctance was the CIA's longstanding contention that U-2 !lights might actually go undetected because Soviet radars would not be able to track aircraft at such high altitudes. This belief was based on a 1952 study of Soviet World War II-vintage radars and on 1955 tests using US radars, which-unknown to US officials-were not as effective as Soviet radars against high-altitude targets. Shortly before U-2 operations began, however, the CIA's Office of Scientific Intelligence (OSI) conducted a vulnerability study of the U-2 that was published on 28 May 1956. The study's conclusion was that "Maximum Soviet radar detection ranges against the Project aircraft at elevation in excess of 55,000 feet would vary from 20 to 150 miles .... In our opinion, detection can therefore be assumed." The OSI study added, however, "It is doubtful that the Soviets can achieve consis9 . tent tracking of the Project vehicle." Completed just three weeks before the initation of overflights, this study seems to have had little impact on the thinking of the top project officials. They continued to believe that the Soviets would not be able to track the U-2 and might even fail to detect it, except for possible vague indications."' Soviet radars were not President Eisenhower's only concern. Also that a malfunction might cause a U-2 to crash inside the Soviet Union, he asked Allen Dulles what the consequences would be. The President's staff Col. Andrew J. Goodpaster, who all White House on the U-2 later

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Colonel Goodpaster with President Eisenhower

take ir as a certaimy that no pilot would survive . .. and that although they would know where the plane came from, it would be difficult to prove it in any convincing way. 11 CIA assurances that the U-2 would probably not be detected, and that a crashed U-2 could not be traced back to the United States, helped overcome the President's worries about overflights. The most important reason why Pres ident Eisenhower decided to send reconnaissance aircraft over the So viet Union, however, was the urgent need for accurate in telligence to confirm or disprove claims of Soviet advances in lo ng-range bombers and missiles. The initial sighting of the new Soviet Bison bomber in the spring of 1954 had been followed by reported sightings of more than 30 of these bombers in the spri ng and summer of 1955 (in reali ty these were sightings of the same group of l 0 aircraft that circled around out of sight and made several passes during a Soviet air show). Soon membe rs of Congress were calling fo r inves tigations into th e relat ive streng th of the US and

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Soviet Air Forces. Early in 1956, concern about a possible Soviet advantage in long-range bombers grew as Air Force Chief of Staff Twining informed the Senate Armed Services Committee that the Soviet Union already had more Bisons than the United States had B-52s and that the Soviets would be able to "maintain this advantage for some time if they keep on the production curve we are now pre1 dicting." ' By May 1956, reporting on the growing Soviet air strength was no longer confined ro aviation journals; U.S. News and World Report, for example, featured articles headlined "Can Soviets Take the Air Lead?" and "Is U.S. Really Losing in the Air?" '" Alongside fear of possible Soviet superiority in long-range bombers came a new pO[emial threat: Soviet progress in guided missile research. Trevor Gardner, Air Force Assistant Secretary for Research and Development, warned in September !955 that "the most complex and baffling technological mystery today is not the Russian capability in aircraft and nuclear weapons but rather what the Soviet progress has been in the field of guided missiles." 路~ On 30 January 1956, Time magazine made the guided missile its cover story. The article began by describing a hypothetical crisis set in 1962 in which the United States suffered a humiliating defeat because it had 16 lagged behind the Soviet Union in guided missile development. Just two weeks after this story appeared, the Soviets successfully tested a missile with a range of 900 miles, and President Eisenhower admitted at a press conference that the Soviet Union might be ahead of the United States in some areas of the missile field. Administration critic Senator Stuart Symington then claimed, "The facts are that our missile development may be ahead in the short-range area, but their missile development is ahead in the area that counts by far the most-the

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long-range area." Fears of Soviet missile progress increased when Nikita Khrushchev stated on 23 April 1956, "I am quite sure that we shall have very soon a guided missile with a hydrogen-bomb warhead which could hit any point in the world." Faced with growing Congressional and public anxiety over Soviet offensive capabilties, President Eisenhower approved the proposed overflight program. Colonel Goodpaster relayed this decision to Bissell, Land, and Killian at a meeting on 21 June. The President nevertheless maintained tight control over the program and authorized only 10 days of overflights when operations over the Soviet Union were ready to start in early July 1956. '"

FIRST OVERFLIGHTS OF EASTERN EUROPE The CfA initiated U-2 flights over hostile territory even before the President granted final approval for overflights of the Soviet Union. After consulting with the Commander of US Air Force Europe, Richard Bissell used existing Presidential permission for Air Force overflights of the Soviet Union's East European satellites as his authority to plan a mission over Poland and East Germany. Bissell had informed the President of his intention to conduct such missions in the "AQUATONE Operational Plan" submitted on 3! May. The first operational use of a U-2 took place on Wednesday, 20 June !956. Carl K. Overstreet flew a U-2 equipped with an A-2 camera over Poland and East Germany. At the end of the mission, Detachment A immediately rushed the exposed film to the United States for The film arrived at the

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Following the success of this first mission, Bissell was eager to overflights of the Soviet Union. But even the President his approval on 21 June, such missions could not take place for two reasons. President Eisenhower had agreed with a CIA and State Department recommendation that West German Chancellor Konrad Adenauer be informed in advance of US plans to overfly the Soviet Union from bases in Germany (in keeping wich existing policies Adenauer was not informed about overflights of Eastern Europe). Second, Soviet party Nikita Khrushchev had invited representatives of the US Air Force to the Moscow Air Show, which opened on 23 June 1956. Led by Air Force Chief of Staff Nathan F. Twining, the delegation would be in the Soviet Union for a week, and General Twining requested that no overflights of the Soviet Union be staged until the Air Force delegation had left. 11 of the Soviet Union

A few days later the Air Force delegation returned from Moscow, but now unfavorable weather prevented the start of operations against the Soviet Union. While waiting for the clouds over the Soviet Union to clear, Detachment A carried out two more overflights of Eastern Europe on 2 July 1956: mission 2009 over Hungary, and "!""'"',.and mission 2010 over East and and DDCI Cabell gave President ucva.u.;:u hâ&#x20AC;˘ri,.fina on the which the

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detachment had four aircraft working and could average up to two flights per day, Bissell told the President that the crews were "ready and eager to go in beyond the satellites" and overfly the cemer of the Soviet Union. 23 Eisenhower replied that he thought it "urgent" to know whether the recent flights had been tracked by hostile radars. The President was obviously concerned that CIA estimates that the U-2 could fly virtually undetected were proving false. One of the reasons why he had approved the overflight program was the CIA's assurance that the Soviet Union would remain unaware of the flights or-at the very worst-receive only occasional, vague indications.

FIRST U-2 FLIGHTS OVER THE SOVIET UNION The question of how well the Soviets could track U-2 flights had not yet been settled when the first overflights of the Soviet Union took place. On Wednesday, 4 July 1956. the U-2 known as Article 347 be路 gan the first flight over the Soviet Union. Final authorization for mission 2013 had come shortly before takeoff. Late on the evening of 3 July, Bissell went to project headquarters in the Matomic Building to give the "Go" or "No go" decision. Although the President had approved the overflight, the final decision to start a mission depended on a number of factors, especially the weather over the target area and at the takeoff and landing sites. Bissell made the decision just before midnight Washington time, which was six o'clock in the morning in Wiesbaden. This pattern of last-minute approvals continued for the duration of the U~2 overflight program.

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the Soviet Union's submarine construction program. Mission 2013's route also overflew a number of major military airfields to make an 5 inventory of the new Bison jet-engine heavy bomber. ' The second on the following day, continued the search for Bison bombers. Pilot Carmine Vito's route was similar but somewhat to the south of Stockman's and also flew farther east, more than 200 kilometers past Moscow. Although the Soviet capital was almost completely hidden by clouds, the A-2 camera with haze filters took some usable photographs of the city. These turned out to be the only U-2 photographs of Moscow because no other mission was sent over the Soviet capital. Among the key targets photographed during mission 2014 were the Fili airframe plant, where the Bison was being built; the bomber arsenal at Ramenskoye, where the Bisons were tested; the Kaliningrad missile plant; and the Khimki rocket-engine plant. =â&#x20AC;˘ When Allen Dulles returned to work on Thursday, 5 July 1956, he asked Bissell if any overflights had taken place during the Independence Day holiday. One had been made on the fourth and another just that morning, Bissell replied. (Because of the six-hour time difference. the 5 July flight was safely back in Wiesbaden by the time Dulles spoke to BisselL) When Dulles asked the routes of these missions, Bissell told him that they had overflown both Moscow and Leningrad. "Oh my Lord." Dulles exclaimed, "do you think that was wise the first time?" "Allen," Bissell replied, "the first is the safest" President Eisenhower also wanted to know the results of the 4 but his concern was whether there had had been discovered or tracked advise Mr. Allen

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Dulles that if we obtain any information or warning that any of the flights has been discovered or tracked, the operation should be suspended." Goodpaster called both Dulles and Bissell and was told that reports on tracking or attempted interception of the U-2s would not be available for another 36 hours. Later that the two CIA officials met with Goodpaster to ask if ftights could continue in the meantime. Goodpaster replied that his understanding of the President's directive was that the operation should continue "at the maximum rate until the first evidence of tracking was received. '" Although President Eisenhower had originally spoken of suspending the overnights if they were .. discovered or tracked, his main concern was to learn if the Soviets could track U-2 missions, meaning that they could follow the Right on their radar screens for most or all of the missions and thus have numerous opportunities to attempt interception. Certainly the President hoped that U-2 nights could not even be detected, but reports received on the 20 June overtlight of Eastern Europe had already indicated that this goal was unrealistic. The President's emphasis therefore shifted to tracking. If the Soviets could successfully track U-2 missions. he wanted the over19 flights halted. Reports on Soviet radar coverage of the first two overflights of the Soviet Union became available on 6 July. These reports showed that. although the Soviets did detect the aircraft and made several very unsuccessful attempts at interception. they could not track U-2s consistently. Interestingly, the Soviet radar coverage was weakest around the most important targets. Moscow and Leningrad. and the Soviets did not realize that U-2s had overflown these two cities. m of the Soviet

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shutter ruined much of the photography of one of the flights. The third mission (2023). on the following day, included the Crimean Peinsula. The film from the first July) was flown to the United States immediately after the U-2 landed at Wiesbaden. Several members of the Photo Intelligence Division were on hand when the film was developed to check on the resulcs. Also present was James Baker, who had accepted an offer by project officials to a firsthand look at how the new A-2 lenses were working.'' The photos from July overnights were generally good, despite occasional problems caused by cloud cover. The huge amount of film taken by these missions provided more information about the Soviet Union's ability to track and intercept U-2s. Photointerpreters examining the films eventually discovered the tiny images of MiG-l5s and MiG-17s beneath the U-2s in various pursuit and attack attitudes: climbing, flipping over, and falling toward Earth. It was even possible to determine their approximate alcitudes. These photographs showed that the Soviet air defense system was able w track U-2s well enough to attempt interception, but they also provided proof that the fighter aircraft available to the Soviet Union in 1956 could not bring down a 11 U-2 at operational altitude. One problem with early U-2 photography became apparent only after the first films were developed. If there was surface water on the runway at Wiesbaden when the U-2 took off. the camera windows became begrimed. Although the water dried during the flight. the oily scum ic left behind degraded the photographic To combat this took brooms and several

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SOVIET PROTEST NOTE The 4 and 5 July overflights brought a strong protest from the Soviet Union on 10 July in the form of a note handed to the US Embassy in Moscow. The note said that the overflights had been made by a "twin-engine medium bomber of the United States Air Force" and gave details of the routes tlown by the first two missions. The note did not mention Moscow or Leningrad, however, because the Soviets had not been able to track these portions of the overflights. The Soviet note stated that the flights could only be evaluated as "intentional and conducted for the purposes of intelligence ... As soon as the note arrived at the White House on the evening of 10 July !956, Colonel Goodpaster called Bissell and told him to srop all U-2 overflights until further notice. The next morning Goodpaster met with Bissell to review the U-2 situation. Bissell said three additional flights had taken place since the missions mentioned in the Soviet note but 35 added that no more were planned. - Later Eisenhower told Goodpaster that he "didn't like a thing" about the Soviet note and was going to discuss the matter with Secretary of State Dulles. With the strong approval of President Eisenhower, Goodpaster informed DC[ Dulles that "there is ro be no mention of the existence of this project or of operations incident to it, outside the Executive Branch. and no mention within the Executive Branch to others than those who directly need to know of the operation, as distinguished from output deriving from it." 36

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the United States delivered an oral protest of Poland on 20 June and 2 July. This was followed a protest note from the Czechoslovak Government on 21 July. No formal reply was sent to the two Soviet satellite states. The details of the fiightpaths listed in the Soviet and Polish prorests, along with the subsequent photographic evidence of Soviet interception attempts, made it clear that U-2s could not fly undetected over the Soviet Union or Eastern and could even be tracked for extended periods of time. This news greatly disturbed President Eisenhower. ln a meeting with Allen Dulles on 19 July 1956, the President recalled how he had been told that "not over a very minor percentage of these (flights) would be picked up." He went on to question "how far this should now be pushed. knowing that detection is not likely to be avoided." After discussing the possibility of basing U-2s in the Far East, President Eisenhower went on to say that he had "lost enthusiasm" for the U-2 activity. He noted that, if the United States were on the receiving end of a Soviet overflight operation, "the reaction would be drastic." The President was also concerned that the American public might learn of the overflights and be shocked that their country had violated international law. He stated, "Soviet protests were one thing, any loss of confidence by our own people would be quite another." lK The President's rapid disenchantment with the project was not lost on Richard BisselL for the survival, he met with the Land committee in 1956 to urge them to make the U~2 less vulnerable to radar His was to reduce the aircraft's radar cross section so that it would be less sus'-"'IJ'UIJ''"' to detection. Edward Purcell had some and that he

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radar-absorbing materials and techniques proposed by Purcell. The effort, known as Project RAJNBOW, got under way by the end of the year.

THE END OF THE BOMBER GAP During the three-week period of 20 June to 10 July 1956, U-2s had made eight overflights beyond the [ron Curtain, including five over the Soviet Union. PID's photointerpreters were busy until the end of August with their initial evaluarion of the photography obtained by these flights. Their efforts were complicated by the division's move on 9 July from Que Building to the Steuart Building, but, when the photointerpreters were finished. they were able to write "finis" to the controversy over Soviet bomber strength. Although the Air Force had claimed that the Soviet Union possessed almost 100 of the new Myasishchev-4 (Bison) heavy bombers, U-2 photography proved this assertion wrong. There were no Bison oombers at any of the nine long-range bomber bases photographed by the July missions. DCl Allen Dulles was particularly impressed by the phorographs of the Soviet bomber bases, which in later years he called "million-dollar路路 photography. The actual value of the U-2 photos was probably even greater because, on the strength of their evidence. the White House was able w deny Air Force requests for additional B-52 bombers to "catch up" to the Soviets:"' Because of the need to protect the source of the information the this issue when the CIA

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No one in the White House, the CIA, or the Air Force could reveal that photographs had actually provided the primary evidence for in the estimates. "1 this The need to keep the existence of the U-2 program secret caused problems even within the CIA itself. The Office of Security sharply restricted the number of persons who could be cleared for access to U-2 photography. The special clearance was granted on a "slot" baand only the person assigned to a particular position or "slot" could have the clearance. The U-2 photographs were kept in a secure room, and only those with special clearances were admitted to the room. (n addition, the Office of Security considered U-2 information too sensitive to use in CIA publications. As a result, many analysts did not have access to information that would have greatly aided the production of intelligence estimates!"

TACTICAL INTELLIGENCE FROM U-2s DURING THE SUEZ CRISIS Although U-2s had ceased flying over the Soviet Bloc because of President Eisenhower's standdown order, they could still be used elsewhere in the world. The Middle East would be the next area for U-2 operations. On 26 July 1956. Egyptian President Gamal Abdel Nasser nationalized the Suez Canal Company in retaliation for the decision by the United States and the United Kingdom to withdraw financial support for the Aswan Dam project. Nasser's action provoked an international crisis that would have a permanent effect on the U-2 program.

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Suez takeover, however, the second contingent of U-2 aircraft and pilots was still being trained in Nevada. This unit would not be ready for redeployment before the end of August and would not become established at Incirlik airbase near Adana, Turkey, until early September 1956. The Agency referred to the AQUATONE detachment at Adana as Detachment B, cryptonym KWCORK; the Air Force covemame was Weather Reconnaissance Squadron Provisional 2; and the unit's unofficial name was Tuslog Detachment l0- 10. By whatever name, the Adana detachment became the mainstay of U-2 activity for the next three and a half years. â&#x20AC;˘J The fast-moving events of the Suez Crisis wou ld not wait for Detachment B pi lots to complete their training. With tension growi ng betwee n Egypt and the Suez Cana l Company's former owners. the United Kingdom and France, as well as between Egypt and fsrae l. US " OSA. History. chap. It. pp. 9. 39--40: chap. 12. pp. 5, 12 (fS Codeword).

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military and foreign policy planners needed immediate information about developments in the eastern Mediterranean. Detachment A was, therefore, a.ssigned the first Middle East overflights. On 29 August, U-2 missions 1104 and 1105 left Wiesbaden and overflew the eastern Mediterranean liuoral, starting with Greece, then Egypt, Israel, Lebanon, Syria, and Turkey. Because these target areas were beyond the round trip range of the Wiesbaden-based U-2s, the planes landed at Adana for refueling. The next day, the same two planes, with different pilots, took off from Adana and overflew the same Middle East territory, this time including the Gaza Strip, before returning to Wiesbaden. The film contained evidc::nce of largelll1fl1tJers of British tro()p~ on .Malta. and Cyprus and

As the situation around Suez grew more tense, the Eisenhower administration decided to release some of the U-2 photos to the British Government. On 7 September, James Reber, chairman of the Ad Hoc Requirements Committee, and Arthur Lundahl, chief of the Photo Intelligence Division, flew to London, taking with them photos of the eastern Mediterranean area, including the Suez Canal, taken on 30 August. These were the first and the only photos of the Middle East that the President authorized to be given to the British during the 45 1956 crisis. The Eisenhower administration viewed the developments in the eastern Mediterranean with great concern. To keep the President and Secretary of State abreast of developments in the area, Deputy Director for Intelligence Robert Amory established on 12 September a multiagency group known as the PARAMOUNT Committee to monitor the situation on a round-the-clock basis. The PARAMOUNT in the Steuart Building. and Air

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The Suez Crisis was a major turning poim in the use of the U-2 airplane. Before this crisis, the U-2 had been seen solely as a collector of strategic intelligence, with high-quality resul£s considered more important than speed. U-2 film had, therefore, been returned to the manufacturer for optimum development and then interpreted in Washington using the most up-to-date devices. Now, because of the Middle East crisis, Project AQUATONE was expected to perform like a tactical reconnaissance unit, developing film immediately after landing for instant interpretation or "readout." Photo-[ntelligence Division personnel assigned to Project HTAUTOMAT (U-2 film exploitation), therefore, had to arrange for forward processing of the U-2 film to avoid unacceptable delays in providing intelligence on tactical developments around Suez. PID acted quickly to carry out its new assignment. Lundahl and Reber flew from the United Kingdom to US Air Force Europe headquarters in Wiesbaden on 12 September to make arrangements for processing and in~ernretimt (,1~2 fib~ in West Gertnany. They had ... . chief of PID's Special Projects been preceded by Branch. Following detailed discussions with Air Force photointelligence personnel, the CIA representatives arranged to use a portion of a nearby Air laboratory for developing U-2 film. chief of the HTAUTOMAT With the assistance ofi photo laboratory, and Air Force personnel. ........ ~······~ had the lab ready for processing on the following day, when the next U-2 mission returned from the Middle East. After quickly developing the film, his joint staff of CIA and armed forces personnel studied it for indications of British and French preparations for hostilities and sent their first report to Washington on 15 September. Force provided considerable assistance in esAir Force officials did not

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October l956. This unit's timely and accurate information enabled the PARAMOUNT Committee to the joint [sraeli-British-French attack on three it rook

rest missions over the Middle East By this time, the new Detachment B in Turkey was ready for operations, and it was better positioned to coverage of the Middle East Detachment B began t1ying missions in September and soon became the primary detachment for Middle East overflights, conducting nine out of the 10 such missions flown in October.4l! Detach,mentB'~

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iirsLli:-2lli!!hLon 11 September 1956, made The next flight, more than bur flew as far west

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The Anglo-French military buildup greatly irritated President Eisenhower, who considered these activities a violation of the !950 Tripartite Declaration, in which the United States, the United Kingdom, and France had agreed quo in armaments and borders in the Middle

U-2 photography continued to keep the President and mher key informed about the oro~xessof the crisis.,

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of State John Foster Dulles told the President on 28 Octob~r that he believed an Israeli attack on Jordan was imminent, adding that he thought the British and French would take advantage of such an attack to occupy the Suez Canae" The I 0-day Middle East war began on the afternoon of 29 October I956 with Israeli paratroop drops in the Sinai peninsula, followed by mobile columns striking deep into Egyptian territory. rroe next day, 30 October, Francis Gary Powers conducted mission 1314. -~ vhere he photographed black puffs of smoke from the llgnnng oe[ween Israel and Egypt. Adana-based U~2s were in the air for the next two days filming the Suez Canal area_ The United Kingdom and France entered the fray on the evening of 31 October with bombing raids against major Egyptian airfields. The bombing continued for the next 48 of l an Adana-based

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at Almaza, where he filmed neatly arranged rows of Egyptian military , aircraft. Continuing past Cairo to film another airfield,CHal_l1 rumed U-2 photography of Egyptian 路1 airbase at Almaza, southeast and then north to fly along the Nile, again crossing directly 1 29 October 1956 over Almaza. The photography from this leg of the mission revealed the burning wreckage of the Egyptian aircraft. During the short period of time that had passed betweenCHall 's tw~ passes, a combined Anglo- French air armada had actacked the airbase. When shown the before and afte r photos of Almaza, President Eisenhower told Arthur Lundahl : " Ten-minu te reconnai ssance, now that's a goal w shooc fo r!" ,. Eisenhower was pleased with the aerial photography bu r

"' Lundah l and Brugioni in!erview (TS Codeword); )::ieschloss (Mayday. p. 138) mi.;rakenly identifi~lhis quote as coming from the British. but they did not receive copies of these photos:.j

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angered by what it depicted: an Anglo-French attack on Egypt. He quickly called for a cease-fire Jnd denied the United Kingdom any further U-2 phocographs of the Middle EaS!} The I November mission over Cyprus and Egypt also photographed Anglo-French preparations to invade Egypt. President Eisenhower was informed of this impending invasion on Sunday, 4 November. On the following day, British and French paratroopers dropped near Port Said at the north end of the Suez CanaL This action prompted Soviet Premier Nikolai Bulganin to send messages ro France, Britain, and Israel warning that the Soviet Union was ready to 55 use force to crush the aggressors. Early on the morning of election day, 6 November, the Anglo-French invasion armada arrived at Port Said and began landing troops. Back in Washingwn President Eisenhower met with Allen Dulles to discuss the deepening international crisis. Worried that the Soviet Union might be poised to imervene in the war, the President ordered Dulles to have the Adana-based U-2s tly over Syria to see whether the Soviets were moving planes to Syrian airbases in preparation for a strike against the forces attacking Egypt. The answer to Eisenhower's question came much sooner than expected because on the previous day a U-2 had already overflown Syria before making a run across northern Egypt. The film from this flight had reached Wiesbaden for processing and readout during the night The results were in the hands of the PARAMOUNT Committee by midmorning on 6 November, while the President was motoring to Gettysburg to cast his ballot. By the time the Presidenc returned to the White House by helicopter at noon, Colonel Goodpaster was waiting for him with an answer: there were no Soviet aircraft in Syria. Because of the President's concern about Soviet moves, was the of 14 additional U,2 between 7 November and 18 December I 56

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facilities available, and the film had to be flown to Wiesbaden, adding a 10- to 15-hour delay. During the gradual buildup of the crisis, this delay had been tolerated, but, once actual hostilities broke out, US decisionmakers needed a more rapid response. On 29 October, Richard Bissell ordered Lundahl to establish a film-processing at Adana. Two PID employees went to Adana on 13 November to set up the facility, and two photointerpreters moved from Wiesbaden to Adana to help in the etfort. Forward processing was, however, hampered by the location of the Adana facility on a nat, arid plain in southern Turkey, 35 miles from the Mediterranean at the very end of a long supply line. The PID team obtained and outfitted a trailer for film processing, but many problems had to be overcome. The first major problem was obtaining enough clean water. Detachment B personnel, therefore, purchased large amounts of borax locally for use in purifying water. In fact, they bought so much borax on the local market that one of them was arrested by the Turkish police, who believed he was using the chemical to make drugs. It was also difficult to obtain a constant source of developers and fixers for processing the U-2 film. since the large Air Force supply facility at Wheelus AFB in Libya refused to provide the needed photographic chemicals. When PID personnel accompanied processed film from Turkey to the United States, they returned to Turkey sitting atop cartons of chemicals for the next day's processing. At first, film was developed in improvised tanks using flimsy wooden spools and hand-turned cranks to move the film through the solutions. Later, the Adana facility moved from its trailer to a building and received more up-to-date processing equipment. As was the case with the photo lab in Germany, the Adana lab's person51 nel came from the and the armed forces.

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122 RENEWED OVERFLIGHTS OF THE SOVIET UNION Throughout the fall of 1956, U-2s provided valuable coverage of the Middle East crisis, but they were not conducting their original mission of strategic reconnaissance of the Soviet Union. President Eisenhower had halted all such overflights by his order of 10 July, and, in the months that followed, he remained unconvinced by ClA arguments in favor of a resumption of overflights. On 17 September 1956, DOer Cabell and Richard Bissell went to the White House to ask President Eisenhower to authorize more flights over the Soviet Union. Adm. Arthur W. Radford, Chairman of the Joint Chiefs of Staff, also attended the meeting. Bissell and Defense Department representatives reviewed the valuable intelligence from the July U-2 tlights, and Bissell then informed Eisenhower that many important intelligence requirements remained unfilled. To fill these requirements, Bissell noted, would require photography of approximately 15 separate areas of the Soviet Union. Pleading for the authority to resume overflights. Bissell stressed that conditions for photography were becoming less favorable as the days grew shorter. While the U-2 was then still safe from interception. he added, it might not be in the future. 5>1 Presidem Eisenhower acknowledged the value of the U-2 but emphasized that the international political aspects of overflights remained his overriding concern. He said he would talk further with John Foster Dulles about the matter, noting that the Secretary of State had at first seemed to belittle the political risk but had later found it increasingly worrisome. A little more than two weeks later, on 3 October, when the President again met with Bissell. Cabell, and Radford, John Foster Dulles was also present (n opening the meeting, Eisenhower said he AQUATONE. Although had become regarding he had been assured that "there would be a chance of not the OOiOOl>He

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Secretary of State Dulles said that, although he essentially agreed with the President's comments, he thought that "really important results" might be obtained by a seven to 10-day operation. He, nevertheless, questioned the long-term value of the results. DDC[ Cabell replied that U-2 photographs would be useful much longer than the Secretary of State had implied because they would establish a reference bank of geographic and manmade features. Siding with Cabell, Admiral Radford pointed out the need for more intelligence to make estimates better. President Eisenhower was not convinced by these arguments. Although willing to consider extensions of the radar-seeking ferret flights he had authorized along the Soviet borders, he remained opposed to penetration flights over the Soviet Union. Events in Eastern Europe in the fall of 1956 helped to change the President's mind. [n October the Soviet Union backed away from a confrontation with nationalist Communist leaders in Poland only to find itself facing a similar situation in Hungary, where mass demonstrations led to the formation of a new government under Imre Nagy on- 23 October 1956. Soviet troops and tanks temporarily withdrew from Budapest while awaiting reinforcements. By early November, however, the Kremlin leadership decided that events in Hungary were getting out of hand-particularly when Premier Nagy announced his nation's withdrawal from the Warsaw Pact-and ordered Soviet troops to suppress the Hungarian uprising. Although President Eisenhower deplored the Soviet intervention, he turned down CIA requests for permission to airdrop arms and supplies to the Hungarian rebels. In the President forbid all overflights of that nation, in611 and none was made. cluding those by U-2 President Eisenhower had been allow the the Soviet Union's actions in the

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surgery}. JCS Chairman Adm. Arthur Radford. DC! Allen Dulles, and Richard Bissell, Eisenhower explained why he refused to allow overflights of the Soviet Union: "Everyone in the world says that, in the last six weeks, the United States has gained a place it hasn't held since World War IL To make trips now would cost more than we would gain in form of solid information." Hoover agreed and noted. "If we lost a plane at this stage, it would be almost catastrophic." Tom between his desire to maintain a "correct and moral" position and his wish to know what the Soviet Union was up to. the Presidem finally authorized several overflights of Eastern Europe and the Soviet border. '路but not the deep one," adding that the aircraft should "stay as close to the border as possible." " The first of these flights, mission 4016 on 20 November 1956, was the first overflight of Soviet territory since 10 July. This mission left Adana and flew east over Iran. then reversed and flew west along the Soviet-Iranian border to Soviet Armenia. where it crossed into the Soviet Union and photographed Yerevan. An electrical malfunction then forced the pilot, Francis Gary Powers, to return to Adana. Soviet interceptor aircraft made several unsuccessful attempts to reach this U-2. and the Soviet Government sent a secret protest note to Washington.'" On 10 December, Bulgaria was the target of two U-2 missions, one (4018) from Detachment B at Adana and another (2029) from Detachment A at Giebelstadt. Bulgarian fighter aircraft made 10 different attempts to intercept the first but the flight proceeded without difficulty."3

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125 to all pilots about the danger of opening the helmet plate at high altitudes, several pilots were known to do so. Some ate candy Vito favored lemon drops. On the morning of lO December, while Vito was undergoing prebreathing, the Air Force enlisted man who oversaw his preflight regimen an L-pill in the righthand knee pocket of Vito's Hight suit, unaware that this pocket also contained Vito's supply of lemon drops. After he took off, Vito began indulging in his habit of sucking lemon drops. About midway into the mission, he opened his faceplate and popped into his mouth what he thought was another lemon drop. After closing the faceplate, he began sucking on the object and thought it strange that it had no flavor and was much smoother than the previous lemon drops. Although tempted to down, Vito decided instead to reopen his faceplate and see what it was he had in his mouth. Spitting the object into his hand, he saw that he had been sucking on the L-pill with its lethal contents of potassium cyanide. Just a thin layer of glass had stood between him and death. The loss of his aircraft over Bulgaria would have exposed the program to worldwide publicity and would probably have resulted in an early end to overflights.... _ Detachment A's security officer overheard Vito relating the L-piU story to a fellow pilot several days later and promptly reported the conversation to headquarters. When details of Vito's close caU reached Washington, James Cunningham immediately ordered L-pills placed in boxes so that there would be no chance of mistaking them for anything else. The L-pill continued to be available for another three years. in January 1960, the commander of Detachment B, CoL William Shelton, raised an important question that had never been considered: what would happen if an L-pill with volatile conÂˇ tents accidentally broke the of a that such an accident would result in death the pilot, James all L-pills and then turned to a better idea. By this time n"''"''â&#x20AC;˘" was a needle with

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Although the U-2 overtlights of Eastern Europe in late 1956 caused renewed Soviet protests. the sharpest protest came on 15 December 1956, after three specially modified USAF RB-570 bombers photographed the city of Vladivostok in a high-speed dash over the Far Eastern coast of the Soviet Union (as part of the Air Force's Operation BLACK KNIGHT). President Eisenhower had approved the mission after being told by the Air Force that the high-speed 66 RB-57Ds would probably not be detected. Reacting strongly to the Soviet protest. the President told Secretary of State Dul!es on 18 December that he was going to "order complete stoppage of this entire business." As for a reply to the Soviet protest, Dulles said, "I think we will have to admit this was done and say we are sorry. We cannot deny it." Dulles noted that "our relations with Russia are pretty tense at the moment" Eisenhower agreed, noting that this was no time to be provocative. He then instructed Colonel Goodpaster to call Secretary of Defense Wilson, Joint Chiefs of Staff Chairman Radford. and DCI Dulles to order: "Effective immediately, there are to be no flights by US recon67 naissance aircraft over Iron Curtain countries." Flights along the borders of Iron Curtain countries continued, however, and. on 22 December 1956, Detachment B flew the first mission (40 19) by a U-2 equipped for electronic intercept. The electronic-detection equipment known as the System-V unit (see appendix was installed in the bay normally used by the main camera, and the plane flew along the Soviet border from the Black Sea to the Caspian Sea and on to Afghanistan. The System- V unit worked well."" a mtsswn the Soviet border 18 March a U-2 "'v''"'"'''u southern border entered Soviet

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127 airspace because of compass error compounded by a slight error in the pilot's dead reckoning. Because of heavy cloud cover, the pilot, James W. Cherbonneaux, did not realize he was over the Soviet Union until he saw Soviet fighters attempting to intercept him. These attempts at interception once again demonstrated the Soviets' ability 69 ro track the U-2 and their inability to harm it At this point in early 1957, the U-2 program was in limbo. Although the President would not allow U-2s ro fly their primary mission of reconnaissance of the Soviet Union, he did not cancel the program and continued to authorize flights along Soviet borders. The CIA's overhead reconnaissance program also faced a renewed bid by the Air Force, which now had its own growing U-2 fleet, to gain control of the overflight program in the spring of 1957. The uncertainty surrounding the future of the project made planning and budgeting extremely difficult In April I 957, Richard Bissell asked the DCI and DDCI w push for a decision on whether the U-2 program was to continue in civilian hands and what its scope was to be. In briefing papers prepared for the DCI, Bissell argued for maintaining a nonmilitary overflight capability, which could "maintain greater security, employ deeper cover, use civilian pilots, keep the aircraft outside military control, and, therefore, make possible more plausible denial of US military responsibility in the face of any Soviet charges." In urging the resumption of overflights, Bissell stated that four U-2 missions over border regions of the Soviet Union or Eastern Europe had been detected by the Soviets without causing any diplomatic protest. He also noted that the President's Board of Consultants on Foreign recommended the Intelligence Activities had of overflights. All of these

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rematntng opposed to nights over most of the Soviet Union, Eisenhower finally agreed to permit some flights over peripheral areas such as Kamchatka Peninsula and Lake Baikal, as well as the Soviet Union's atomic testing area at Semipalatinsk. Such overflights could be staged from Pakistan if the Pakistani consent路 ed. The President rejected the Air Force's request to take over the U-2 program, stating that he preferred to have the aircraft manned by 71 civilians ''during operations of this kind." The President had once again agreed to allow overflights of the Soviet Union, although only over certain areas, because the need t:o learn more about the capabilities and intentions of the Soviet Union was too compelling. In particular, the President and top administr:a路 tion officials wanted to gather more data on the Soviet Union's mi ssile program, a subject for which considerable Soviet boasting-but no hard data-was available. Even after he had authorized the resumption of overflight:s, President Eisenhower maintained tight control over the program. He personally authorized each overflight. which meant that Richard Bissell would bring maps to the White House with the proposed routes marked on them for the President to examine. More than once, accord路 ing to Bissell, Eisenhower spread the map out on his Oval Office desk for detailed study, usually with his son John (an Army officer serving as a White House aide) and Colonel Goodpaster looking over tJ. is shoulder. On occasion, the President would pick up a pencil and elirrainate a flight or make some other correction to the flight plan-""

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absorption devices for the U-2. Once these devices were installed on the operational he explained, the "majority of incidents would 13 be undetected." Work on methods of reducing the U-2's vulnerability to radar detection had begun in the fall of 1956 as the result of President Eisenhower's with the program Soviet detection and of the first series of U-2 missions. The CIA firm Scientific Institute was codenarned RAINBOW. SEl

"Trapeze" antiradar attachments to the U-2

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the aircraft, was a small-gauge wire with precisely ferrite beads. The wire and beads were supposed to capture incoming 70-MHz radar pulses and either trap them in the loop or weaken them so much that they would not register as a valid radar return. This conwas called the and was not very successfuL A second approach, tested in early 1958, involved the use of plastic material containing a printed circuit designed to absorb radar pulses in the 65- to 85-MHz range. Nicknamed "wallpaper." this material was glued to parts of the U-2's fuselage, nose, and taiL Although the ''trapeze'' and "wallpaper" systems provided prmection against some Soviet radars. the systems proved ineffective against radars operating below 65-MHz or above 85-MHz. Furthermore, both of these additions degraded the U-2's performance. The weight and drag of "trapeze" reduced the aircraft's operating ceiling by 1,500 feet, and "wallpaper" sometimes caused engines to overheat'" SEI's research results were tested by another firm known as Edgerton, Germeshausen & Grier (EG&G), which was also composed of MIT faculty members. Under an Air Force comract to evaluate radars, EG&G operated a small testing facility at Indian Springs. Nevada, not far from Area 51. Although Kelly Johnson had been closely involved with the radar deception project since its early days. he cooperated reluctantly because he disliked adding attachmenÂŁs that made his aircraft less airworthy. (Johnson's dislike of the anti radar attachments was reflected in the unofficial nickname for aircraft that had been so modified-"dirty birds.") After Lockheed mechanics had mounted the various RAINBOW devices on the prototype U-2, a Lockheed test pilot would fly the plane over EG&G's Indian Springs installation. This was little more than a series of radar sets and a trailer instrumentation. EG&G technicians could thus record and evaluate the radar returns it traversed a

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"Wallp aper路

engine of the U-2 known as article 341. causing it to overhear and fl ameou t. Unable to restart the power plant, Loc kheed test pilot Robert Sieker bailed out but was struck and killed in mi dair by the U-2's tai lp lane. The airc ra ft cras hed in an area of evada so remote that Area 5 1 searc h teams needed four days to locate: the:: wreckage . T he extensive search attracted th e attent io n of the pre ss. and a

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Wreckage of Article 341, 2 April 7957

12 April 1957 article in the Chicago Daily Tribune was headlined, " Secrecy Veils High-Altitude Research Jet; Lockheed U-2 Called Super Snooper." 76 Because of its large wingspan, an out-of-control U-2 tended to enter a classical flat spin before ground contact. This slowed descent and actually lessened the impact. If there was no fire after impact, the remains of crashed U-2s were often salvageable, as was the case with the wreckage of article 34 1. Kelly Johnson's crew at the Skunk Works used the wreckage, along with spares and salvaged parts of other crashed U-2s, ÂŁO produce another flyable airframe for about 77 $185,000. The U-2's abi li ty to survive a cras h in fairly good condition should have been noted by the Development Projects Staff for consideration in its contingency plans fo r a loss over hostile territory because the equ ipment on board the aircraft could easi ly compromise the weather research cover story. The loss of one of Lockheed's best test pilots, as well as the prototype " dirty bird" U-2. led Kelly Johnson to suggest that Lockheed install a large boom at the Indian Springs radar te st fac il ity. Us ing the

'â&#x20AC;˘ Accid<!nt fo lder. crash of 2 April 1957. OS A records iS). " Lockhe<!d comrac[S. OSA Rt!cords

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boom, which could lift entire airframes 50 feet in the air, technicians could change the airframe's attitude and run radar tests almost contin78 uously without having to fuel and fly the plane. By the summer of 1957, testing of the radar-deception system was complete, and in July the first "dirty bird" (DB) arrived at Detachment B. The first operational use of this aircraft occurred on 21 July 1957 in mission 4030 over Iran, Iraq, and Syria. On 31 July, the same aircraft made a run over the Black Sea. There were a total of nine DB missions over the USSR. The antiradar system did not prove very effective, and its use was curtailed in May 1958.N

THE NEW DETACHMENT C On 8 June 1957, a U-2 took off from Eielson Air Force Base in Alaska to conduct the first intentional overflight of the Soviet Union since December 1956. This mission broke new ground in two respects: it was the first overflight conducted from American soil and 路the first by the new Detachment C. Detachment C (known officially as Weather Reconnaissance Squadron, Provisional-3) was composed of the third group of pilots to complete their training in Nevada. In the autumn of 1956, this third detachment needed a new base because Area 51 was about to become the training site for a large number of Air Force pilots who would fly the 29 U-2s purchased by the Air Force. The Agency decided that the best location for Detachment C would be the Far East and began for bases there.

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The search for a new home for Detachment C led the Agency to ask the Air Force in the autumn of 1956 for permission to locate the detachment at Yokota AFB. Japan. Because Yokota was already the base for one covert project (the very secret Air Force Project BLACK KNIGHT using RB-57s), Air Force Chief of Staff Twining did not wish to locate another one there and denied the request. The Agency then turned to the Navy, which granted permission for Detachment C to use the Naval Air Station at Atsugi, Japan. The Japanese Government received no notification of the proposed deployment because at that time it had no control over activities involving US military bases in Japan. Deployment of Detachment C began in early 1957 but was complicated by a recent decision to permit the families of Project AQUATONE employees to accompany them on overseas tours. As a result, program managers had to find housing facilities on the base or in nearby communities. not an easy task in crowded Japan."' Detachment C began conducting missions in June 1957 after several aircraft and pilots tlew to Eielson Air Force Base near Fairbanks. Alaska. Air Force radar order-of-battle reports and NSA studies had revealed that the radar network in the Soviet Far East, with antiquated radar sets and personnel of a lower caliber than those in the western Soviet Union, was relatively ineffective. To take advantage of these weaknesses, Detachment C staged three missions from Alaska into the Soviet Far East. The first on 7/8 June (the aircraft crossed the international date line during the flight), was unable to photograph its target, the ICBM impact area near Klyuchi on the Kamchatka Peninsula, because of bad weather and, therefore, never entered Soviet 19/20 June was

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DETACHMENT B FliGHTS FROM PAKISTAN The most important series of overflights in the summer of I957 were those that Detachment B staged to gather intelligence on the Soviet Union's guided missile and nuclear programs. President Eisenhower had approved these overflights at the meeting on 6 May I pro~

, . The ajrfteld at Peshawar, a more desirable location, was not available because of repair work. Detachment B at Ankara ferried four of its U-2s, two of which were dirty birds, to Lahore. A C-124 brought in eight pilots and ground crews to prepare for missions over the Soviet Union and the People's Republic of China (PRC) beginning on 4 August (Operation SOFT TOUCH). During a 23-day period, these aircraft made nine flights: seven over the USSR and two over the PRC. Although one of the seven flights over the USSR was a failure because the camera malfunctioned after taking only 125 exposures, the remaining missions over Central Asia were a complete success, producing a bonanza of information that kept scores of photointerpreters busy for 1 more than a year. ' The 5 August flight, a dirty bird piloted by Buster Edens, was the first to photograph the major Soviet space launch facility east of the Aral Sea in Kazakhstan. None of the mission planners was certain just where the range was located, so the U-2 pilot followed the rail lines in the area. As a result, the plane did not pass directly over the rangehead and obtained only oblique photography. known in the Wesr

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Mission 4039 Mission 4045 Mission 4048 Mission 4049

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U-2 photography of Tyuratam Missile Testing Range

was the name Brugioni gave the missile base. Official Soviet releases concerning this base have always referred to it as Baykonur, but the of Baykonyr is actually more than 200 miles north of

While PID was the SOFf Union announced the successful launch of an

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On agency TASS stated thaÂŁ a imercominemal ballistic rocket " had been

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Semipalatinsk Nuclear Weapo ns Proving Ground, 22 August 1957

part of the world.""" The Soviet announcement made the intelligence community want even more information on Tyuratam, and a second U-2 piloted by Edwin K. Jones flew over the area on 28 August 1957, just one week after the Soviet ICBM launch. This mission obtained excellent vertical photographs of the main launch complex, and photointerpreters soon determined that the Soviets had only one launchpad at Tyuratam. The base was not photographed again until 9 July 1959, at which time it still had onl y one launch pad, altho ugh two more were under cons truction.'~ On 20 and 21 August 1957, U-2s conducted the first overflights of the Soviet nuc lear test ing grounds at Sem ipalatins k, north -no rth wes t of Lake Balkhas h. The first miss io n. pi lo ted by Sam my V. C. Snider, pas sed ove r part of the pro ving grounds, flew on to Novoku znetsk. and the n proceeded to Tomsk. where it began its return leg tha t incl uded coverage o f a very large uranium-processi ng facility at the new c ity of Berezovskiy. ln the seco nd mission, James Cherbonneaux fle w directly ove r the Semipalatinsk provi ng grounds on ly four hours before a half-megaton dev ice was detonated. In fact. the U-2 unknowing ly photographed the ai rcraft that was to drop the

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6 Scpc.:mh.:r 1957. pp.

J().JJ '·' \<bs i•>n fold.:r' .!051l !2S August l '/5 7) Jnu .! 125 1'> July ! 959). OSA records. job 67-H-<J?:!. hox~s 3 and ! I iTS Codeword).

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nuclear device. These photographs alsorevt;aledt:vidence of a recent, low-vield. above路!!round nuclear

On way to the 2! mtsston flew a search pattern over the western end of Lake Balkash looking for another Soviet missile-related installation and made the first photographs of what was later determined to be the new missile test center at Saryshagan. This facility was used to test radars against incoming missiles fired from Kapustin Yar, I ,400 miles to the west. Saryshagan later became the center for the development of the Soviet Union's advanced antiballistic missile (ABM) weapon system. On 23 August 1957, DDCl Cabell, Richard Bissell, and Air Force Chief of Staff Twining met with President Eisenhower to report on the results of Operation SOFT TOUCH. They showed the President some of the photographic results of the earlier missions and reported on the effects of the antiradar measures. Although the anriradar measures had not proved successful, the photographic yield from the missions was extremely valuable. Bissell then informed the President that the SOFT TOUCH operation was just about ro conclude with the transfer of the aircraft back to Adana. He asked permission for one of the U-2s to make another overflight of the Soviet Union on this return trip, but the President denied the request, not 7 wishing to conduct any more overflights than were necessary.'

THE DECLINE OF DETACHMENT A the summer of

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in the Far East were less risky than those conducted by Detachment A. Finally, the main of U-2 photography after the bomber issue receded was Soviet missile and nuclear The testing areas for these weapons were located in the vast open spaces of the south-central and eastern of the Soviet Union, which the of Detachment A's aircraft. The decline in importance of Detachment A had begun with the President's standdown order of 10 July 1956. During the next three months, the demchment conducted only I I missions, all over the Mediterranean rather than the original target of the Soviet Union. and the slow pace of activity and change in mission adversely affected pilot morale. One of the detachment's aircraft was lost in a crash on 17 September, killing pilot Howard Carey and garnering unwanted publicity. Conditions improved when the detachment moved ro the newly renovated facility at Giebelstadt in early Ocrober 1956, but security now became a problem there. Detachment A "'"''"'""'"' discovered that a long, black Soviet-Bloc limousine was parked at the end of the Giebelstadt runway whenever the U-2s took off."" During the next year, Detachment A mounted only four overflights. The first two were over Eastern Europe: one over Bulgaria on 10 December 1956 and the other over Albania on 25 April 1957. Then a period of inactivity followed, ending with a third mission on II October I which conducted electronic surveillance of Soviet naval maneuvers in the Barents Sea. The final overflight of

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had flown a total of 23 missions: six over the Soviet Union, five over Eastern Europe, and most of the remaining I 2 missions over the Mediterranean area.'x'

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DECLINING OVERFLIGHT ACTIVITY Operation SOFr TOUCH (4-27 August 1957) proved to be the high water mark of U-2 operations against the Soviet Union. Detachment B staged one more overflight on 10 September 1957. when a U-2 piloted by Wiiliam Hall flew from Adana to photograph the Kapustin Yar Missile Test Range for the first time since the RAFs overflight in 1953, obtaining photographs of a large medium-range ballistic missile (MRBM) on the launchpad. Six days later Detachment C conducted its successful overnight of the ICBM impact site at Klyuchi. and October saw the final two overflights of Detachment A. After these became a rarity. There would be

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U-2s flying well within international airspace above the Black Sea, as was the case on 27 October 1957. when electronic intelligence equipment on a U-2 flight over the Black Sea that never violated Soviet airspace revealed 12 attempts at interception by Soviet fighters. The sole U-2 overflight of 1958 was conducted by a dirty bird from Detachment C. On I March 1958, mission 60 II overflew the Soviet Far East and photographed the Trans-Siberian Railroad, Sovetskaya Gavan', the Tatar Strait, and a strange installation at Malaya Sazanka, which was eventually determined to be a structure for mating nuclear devices with their detonators. This was the first and only U-2 overflight of the Soviet Union staged from Japan."" On 5 March 1958, the Soviet Union delivered a vigorous protest concerning this mission, prompting President Eisenhower to tell Colonel Goodpaster on 7 March to inform the CIA that U-2 flights 95 were to be "discontinued, effective at once." This standdown was to last more than 16 months, until July 1959. The Soviets had not been fooled by the antiradar devices carried by mission 6011, as was demonstrated by the detailed information about the mission contained in a Soviet aide-memoire delivered on 21 April 1958. It was clear that dirty bird aircraft were not effective and that Soviet radar operators had little difficulty in tracking them. At this point, the Agency abandoned the use of the antiradar devices on the U-2. As a substitute, Lockheed began working to develop a paint with radar-suppressant qualities, but this project also proved unsuccessfuL The U-2s were not the only

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launched to take advantage of a newly discovered change in the west-to-east jet stream. Normally, this fast-moving air current stayed at an altitude of 55,000 feet, but, during June and July, it turned abruptly upward over the Bering Sea just west of Alaska, climbed to I I 0,000 and then reversed direction. One of the key arguments that convinced the President to approve the project was Quarles's claim that the balloons' "chance of being detected is rather small and their identification or shootdown practically niL""" Release of the balloons rook place from an aircraft carrier in the Bering Sea on 7 July 1958. Nothing was heard about them until 28 July, when Poland sent a note protesting the overflight of a US-made, camera-carrying balloon that had fallen to earth in central Poland. The loss of this balloon was because of human error. Each balloon was equipped with a timing device that would cause it to drop its camera and film payload after crossing the target areas. An Air Force technician aboard the aircraft carrier had calculated that the balloons should cross the Eurasian landmass in about 16 days. Thus. he adjusted regulators aboard the balloons to cause automatic descent after . 400 hours aloft When bad wearher delayed the launch for three successive days. however, rhe technician forgot to reset the timing devices. As a result, one payload fell into Poland. None of the three WS-461 L balloon payloads was recovered.·n The Polish protest was quickly followed by a Soviet note prothe balloons' violation of the Soviet Union's airspace. Several months later, the Soviets placed the US balloon and photographic equipment on in Moscow for the world's press. President Eisenhower was angry that the Defense Department's assurances that the balloons would not be detected had false. Even worse. one the balloons had been ,.,..r·nvt>re•n had

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Equipment from a WS-46TL balloon on display in Moscow, 11 October 1958

Goodpaster on 29 July 1958 to tell the Air Force that ''the project is to be discontinued at once and every cent that has been made available as part of any project involving crossing the [ron Curtain is to be 911 impounded and no further expenditures are to be made." Two days later Eisenhower followed up thi s order with a formal memorandum to Secretary of Defense Neil McElroy telling him that " there is disturbing evidence of a deterioration in the processes of discipline and responsibility within the armed forces." He cited, in particular, " unauthorized decisions which have appare ntly resulted in certain balloons falling wi thin the territory o f the Communist Bloc " and overflights over rou tes "that contrave ned my standing orders. " 路n On 2 September 1958, the re was another violation of So viet ai rspace when an unarmed Air Force EC- 130 on an electroni c intelligence collection mission crossed from Turkey into Sov iec Armenia and was shot down by Soviet fighte r ai rcraft. Six of the me n on board were killed and the remain ing l l were never heard from again. despite State Department attempts w get the Soviet Union to reveal thei r fate. ''" -~ Andr~w

J. Good paster. Memorandum for the Record . :!9 Jul y 1958, WHOSS . Alpha. DDEL (S ); Goodpaster in terview ( $).

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Quoted in Ambrose. Ei:wthn.,u: The Pres1Jent. PP- .J 75 -476.

'"' " US R.:pn:senwtions to the Sovt<!'t Govemm.:nt on C路l30 Transport Shm Down by Sov iet Fighter Airc r.1ft. .. US Departmmt of Stare Bulletin. D February 1959 . pp. 26 2-27 ! ; lkschloss. Mayday. p. ! 59.

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President Eisenhower was disturbed by the increased superpower tension that had resulted from violations of Soviet airspace by US balloons and aircraft because he still hoped to enter into arms limitation negotiations with the Soviets. On 8 September 1958, the United States sent a note to the Soviet Union calling for a Soviet answer to US proposals for a "study of the technical aspects of safeguards against the possibility of surprise attack." One week later the Soviets agreed to participate and suggested that the talks begin in Geneva on I 0 November 1958. President Eisenhower was also attempting to persuade the Soviet Union to begin talks aimed at eliminating the atmospheric testing of nuclear weapons. These efforts began with a 22 August 1958 offer co suspend US nuclear tests for one year on the condition that the Soviet Union also refrain from further tests and join in negotiations. On 30 August. Soviet Premier Nikita Khrushchev accepted the proposal and agreed ro start talks on 31 October 1958 in Geneva. When the talks began, hmvever. the Soviets refused to agree to a test ban and carried out nuclear tests at Semipalatinsk on I and 3 November. Nevertheless, during the late summer and early autumn of 1958, President Eisenhower, determined to reduce to a minimum any aggravation of the Soviets, kept the U-2 overflight program in lirobo.'"' In November !958. relations with the Soviet Union worsened after Khrushchev precipitated a new crisis over West Berlin by announcing plans to sign a peace treaty with East Germany by May 1959. He stated that such a treaty would terminate Allied rights in West Berlin. Four days later, Soviet troops began harassing US Army truck convoys on the highways leading from West Germany to West Berlin. Although this new Berlin crisis never became as threatening as the blockade of !948-49, President Eisenhower wished to avoid any actions that would the Soviets. Tension over West Berlin an additional reason for the Bloc.

CONCERNS ABOUT SOVIET COUNTERMEASURES AGAINST THE U-2

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shoot down a U-2. Before the program started, Richard Bissell had estimated that the U-2 would be able to fly over the Soviet Union with impunity for only about two years. This period was already over, and the Soviets were working frantically to devise a means to stop U-2 From the very beginning, Soviet air defense units had not only tracked U-2s with radars, but had also made repeated efforts to shoot them down with antiaircraft weapons and interceptor aircraft. In 1956 such attempted interceptions had involved primarily MiG-ISs and MiG-17s, which could barely reach 55,000 feet The advent of MiG- I 9s and MiG-21 s, which could climb even higher, provided a greater threat for U-2 pilots. Realistic training for pilots learning to intercept the U-2 became possible after the Soviets developed a new high-altitude aircraft, the Mandrake, which was actually an improved version of the Yakovlev-25 all-weather interceptor. The Mandrake used a high-lift, low-drag wing design similar to that employed by the U-2, but its twin engines made it heavier. The Mandrake's operating altitude was 55,000 to 65,000 feet. and its maximum altitude was 69.000, far less than the 75,000 feet reached by the U-2. Like the U-2. the Mandrake's wings would not tolerate great stresses. so it could not be used as an attack aircraft at the high altitudes at which both planes operated. Between 1957 and 1959, Yakovlev built 15 to 20 of these aircraft in two versions: the Mandrake-R or YAK-25RM and the Mandrake-T. sometimes called the YAK-26. These high-altitude aircraft were used to the Middle East. lndia, China, and Pakistan, as well as border regions of NATO nations in Europe during the late 1950s and early 1960s. lt is not believed that Mandrakes ever attempted to overfly the continental United States.

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speed, apply full throttle to the engine, then pull back on the stick and zoom as high as he could. In this manner the Soviet pilot hoped to come up directly beneath the U-2 so he could use his guns and missiles against the shiny U-2 etched in silver against the dark blue-black of space. Using this maneuver, some MiGs were able to climb as high as the U-2 but seldom got very close. At this height the MiGs were completely out of control; their small, swept-back wings provided insufficient lift; and their control surfaces were too small to maintain aircraft stability. U-2 pilots often spotted MiGs that reached the apex of their zoom climbs and then fell away toward the earth. The US pilots' greatest fear was that one of the MiGs would actually collide with a U-2 during a zoom climb.").! U-2 pilots complained that they felt like ducks in a shooting gallery under these circumstances and suggested that the underside of the silvery aircraft be camouflaged in some manner. Kelly Johnson had originally believed the U-2 would fly so high that it would be invisible, thus eliminating the need to paint the aircraft and thereby avoiding the added weight and drag that paint produced. The paint penalty was calculated to be a foot of altitude for every pound of paint. A full coat of paint cost the U-2 250 feet of altitude, substantially less than the 1.500- foot penalty paid for the addition of dirty bird路 devices. By late 1957, Johnson agreed that something had to be done. After a series of tests over Edwards AFB. Lockheed began coating the U-2s with a standard blue-black military specification paint on top and a lighter cloud-blue paint below. Subsequent tests over Nevada revealed that the U-2s were less conspicuous when painted all over with a matte-finish blue-black color, which helped them blend with the dark canopy o f space. "''

MORE POWERFUL ENGINES FOR THE U-2

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Soviet MiG-21 interceptor (top}, Soviet MiG-19 interceptor (middle), Soviet MiG- 19 photographed by a U-2, 13 October 1957 (bottom }

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Force of 31-with the more powerful Pratt & Whitney J75-PI3 engine. This new power plant generated 4,200 pounds more thrust while adding only 2,050 pounds more weight With its greater power, the engine permitted the U-2 to reach operational altitude more quickthereby reducing the telltale contrails that the U~2 produced as it passed through the tropopause at 45,000 to 55,000 feet. With the new engine, U-2 passed through this portion of the atmosphere faster and did so before entering hostile airspace, thus reducing the chance of visual detection. The 175 power plant also made it possible for the U~2 to carry a larger payload and gain another 2,500 feet in altitude, permitting it to cruise at 74,600 feet. The new engines were in very short supply because of the needs of the Air Force's F-105 construction program, but Colonel Geary used his Air Force contacts to obtain an initial supply of 12 engines. The Air Force never equipped its original U-2s with the 175 engines.""' Detachment C in Japan received the first of these re-engined aircraft, known as U-2Cs, in July 1959, and two more arrived in Turkey for Detachment B in August. All Agency U-2s had the new engines by the summer of 1962, but by then only seven CIA U-2s remained in service.

INTERVENTION IN LEBANON, 1958 Although the U-2 was used less and less for its original role of gathering strategic intelligence on the Soviet Bloc, it had acquired the new mission of providing US decisionmakers with up-to-date information on crisis situations all around the world. The first use of the U-2 to tactical intelligence occurred during the 1956 Suez Crisis. U-2s from the Turkish-based Detachment B conducted peto monitor the situation in the troubled Middle active the summer of 1958.

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Abdel Nasser overthrew the Government of Iraq and assassinated the intluence of Nasser, royal family. Long concerned by the who had close ties to the Soviet Union and now headed both Egypt and Syria in the new United Arab Republic. President Eisenhower decided that US intervention was necessary to stabilize the situation in Lebanon and to show Nasser that the United States was willing to use force to defend its vital interests in the region. Before intervening in Lebanon. the United States consulted with the United Kingdom, which also decided to intervene in the Ytiddle East by sending paratroopers to assist the Government of Jordan on 17 July. With US Marines and Army troops deployed in a potentially hostile situation in Lebanon, US military commanders and intelligence community analysts immediately requested tactical reconnaissance tlights to look for threats to the US units and evidence that other Middle Eastern countries or the Soviet Union might be preparing to intervene. The U-2s of Detachment B in Turkey carried out these missions. Because tactical reconnaissance required an immediate readout of Jhe films taken, the Photographic Intelligence Center (the new name for the Photo-Intelligence Division from August 1958) quickly reopened the film-developing unit at Adana and stafted it with lab technicians and photointcrpreters. Throughout the summer of 1958. Detachment B U-2s brought b:1ck photography of military camps. airfields. and ports of those Mediterranean countries receiving Soviet arms. The detachment also kept a close watch on Egyptian-based Soviet submarines, which posed a threat to US 6th Fleet ships in the Mediterranean. In addition. U-2s tlew occasional electronic intelligence collection missions the Soviet border and over the Black Sea without Sov the !\Iiddle

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become involved in the U-2 project in September 1956, when the United States supplied them with photography from U-2 missions. To handle U-2 material, the British created a new control system, which later merged with the US control system. By 1957 cooperation between the United Kingdom and the United States had expanded to include frequent consultation between the requirements and photointerpretation organizations of both countries. James Reber and Arthur Lundahl made periodic trips to the United Kingdom for discussions with Alan Crick's UK Requirements Committee (generally known as the Crick Committee, later as the Joint Priorities Committee), the Joint Intelligence Comminee. the Joint Air Reconnaissance Intelligence Center, and M 1-6. ""' The idea of using British pilots in the U-2 program first arose in the spring of 1957, when Richard Bissell-upset that his aircraft had not been allowed to fly over the Soviet Union since the December !956 standdown-was searching for ways to reduce the political risks of overflights and thus obtain more frequent authorization for missions over the Soviet Union. One of his proposals was to use non-US pilots-possibly British-to increase the possibility of plausible denial in the event of a loss. At a meeting with key CIA. Defense Department. and State Department officials on 6 May 1957, President Eisenhower approved the concept of British participation in the U-2 project."" During the next six months. Dulles and Bissell met with Sir Dick White, head of Ml-6, and Air Vice Marshal William M. L. MacDonald, Assistant Chief of the Air Staff for [ntelligence, on several occasions to discuss the proposal in general terms. At first the CIA did not push the proposal too hard because at the same meeting in which he British President Eisenhower had llmntu'" of U-2 missions over the Soviet the summer and fall of 1957. rhe

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officials to work out an agreement on plans and procedures for the joint project The two sides decided to establish a small RAF contingent that would be integrated into and supported by Detachment B at Adana. The British missions would be operationally contro!led by CIA project headquarters. Soon afterward four British pilots began training in Texas. One of these pilots, Squadron Leader Christopher H. Walker, died in a training accident in July 1958. Because of the addition of RAF officers to the program, Project AQUATONE received a new codename, CHALICE. By the end of November 1958, three RAF pilots and a flight surgeon joined Detachment B at Adana with Turkish approval. Formal approval by the political leaders of the United Kingdom and the United States had come several months earlier. On 27 August .1958, Prime Minister Harold Macmillan gave his approval to British participation in the project as long as he had the right to approve or disapprove all operational flights by RAF pilots. On the same day, President Eisenhower gave his approval in principle for the joim project.'!' Both sides stood to from the joint nature of the U-2 project. For Richard Bissell, British participation was a means to an addi~ tiona! source of authorization for overflights of the Soviet Union. Six that months Bissell had cabled he wanted British

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to working closely with the British from his wartime experience and believed that their involvement in the U-2 program was a natural as3 pect of their alliance with the United States." On the British side, participation in U-2 flights was a logical extension of the close cooperation that already existed between the two countries on the U-2 program. The direct involvement of the British also enabled them to conduct additional flights in areas such as the Middle East that were of more intelligence interest to the United Kingdom than to the United States. The British also may have reasoned that direct participation in the program was the best way to ensure that they had a right to share in the U-2's take. Otherwise, the United States might decide at some point to cut off the flow of U-2 photography, as it had done during the 1956 Suez Crisis. By November 1958, British pilots had joined Detachment B, and arrangements had been made for the title to the aircraft they would be using to be transferred on paper co the British Government. In a final exchange of letters between President Eisenhower and Prime Minister Macmillan in December. the President summarized the lines of authority for the joint program: '"British missions are carried out on your authority and are your responsibility just as our activities are authorized and controlled here in accordance with the procedures I have established. In this sense. it could be said that we are carrying out two complementary programs rather than a joint one . ., ,. .. Richard Bissell had achieved his goal of gaining another source of approval for overflights of the Soviet Union. In late 1959 and early 1960, this proved its value when British pilots conducted two highly successful missions over Soviet missile testing facilities at time when President Eisenhower had not authorized an Most the RAF

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May !959, and used to fly weather missions on 7 and 8 May before returning to Adana. Two more weather-sampling flights took place over on 5 and 6 October 1959.

THE U-2 PROJECT AT THE BEGINNING OF 1959 Early 1959 saw Detachment B aircraft active primarily over :Vtiddle Eastern countries, with occasional overflighrs of Albania to check for reported Soviet missile installations. Detachment C mainly collected high-altitude weather data, although it also tlew two missions over Tibet and Southwest China (see chapter 5). The overflight program against the Soviet Union seemed to be at a standstill, but pressures within the government were building to resume deep-penetration flights to resolve the growing "missile-gap" controversy. Organizationally, the U-2 project underwent a major change after Richard Bissell became CIA's Deputy Director for Plans on I January 1959. At first glance, Bissell's selection seems unusual because he hid spent most of his Agency career heading the U-2 project, but his first major assignment had been coordinating support for the operation that ovenhrew the leftist Government of Guatemala in 1954. Furthermore, Bissell's U-2 project was the major covert collector of intelligence against the CIA's primary target, the Soviet Union. During his years as head of the Development Projects Staff (DPS), Bissell had opposed proposals to bring all Agency air activiinto a single office. that he would lose control of Once he became his view-

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The Final Overflights of the Soviet Union, 1959-1960

THE U-2 AND THE "MISSILE-GAP" DEBATE Despite President Eisenhower's reluctance to send U-2s over the Soviet Bloc, he once again authorized overflights in the summer of 1959, after a pause of more than a year. The overriding factor in his decision was the growing "missile-gap" controversy, which had its roots in a series of dramatic Soviet announcements during the second half of 1957. The first announcement revealed the successful test of an intercontinental ballistic missile in August. Then in October, the Soviets announced the successful orbiting of the world's first artificial earth satellite, Sputnik. One month later the Soviets orbited a second satellite containing a dog and a television camera. To many Americans. including some influential members of Congress. the Soviet Union's space successes seemed to indicate that its missile program was ahead of that of the United States. By the spring of after the United States had launched several satelgap between the two superpowers new concerns arose that arsenal

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Launch of Sputnik, 4 October 1957

Premier Nikita Khrushchev asserted that the Soviet Union had an ICBM capable of carrying a 5-megaton nuclear warhead 8,000 miles. These statements seemed all the more ominous because, during this same month of December, the first attempt to launch the new US Titan ICBM failed. In reality. all of the Soviet statements were sheer propaganda; they had encountered difficulties with the SS-6 lCBM, and the program was at a standstilL As a result, there were no ICBM launches from Tyuratam between 29 May I 958 and 17 February 1959, a space of almost nine months." To conceal the difficulties in their missile program. Soviet leaders continued to praise its alteged successes. At the beginning of February 1959, Khrushchev opened the Soviet Communist Party Congress in Moscow by claiming that "serial production of intercontinental ballistic rockets has been organized." Several months later Soviet Defense Minister Rodion Malinovsky stated that these missiles were capable of hitting "precisely any point" and added, "Our army is equipped with a whole series of intercontinental, continental and other rockets of medium and short range." When asked at a statemem, President press conference to comment on Eisenhower also said that they invented the machine and the aummobile and the and other should be $0 r'P~ flp,('ffl not

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As concern about Soviet missile progress increased, even the interruption in Soviet ICBM testing was seen as evidence of a Soviet advantage. Although the CIA correctly reasoned that the Soviets were experiencing difficulties in developing an operational ICBM, the Air Force assumed that the Soviets had halted because the missile was ready for deployment.' The controversy intensified early in February 1959, when Secretary of Defense Neil H. McElroy testified before the Senate Preparedness Investigating Committee on Soviet missile capabilities for the next few years. McElroy told the Senators that in the early 1960s the Soviet Union might have a 3 to 1 advantage over the United States in operational ICBMs. McElroy stressed that the gap would be temporary and that at its end the United States would enjoy a technological advantage because it was concentrating on developing the more advanced solid-fueled missiles rather than increasing the number of obsolescent liquid-fueled missiles, but it was his mention of a 3 to l missile gap that made the headlines. Administration critics such as Senator Stuart Symington quickly charged that the actual gap 5 would eventually be even larger. Faced with rising public and Congressional concern about the missile gap. Defense Department officials pressed President Eisenhower to authorize renewed overflights to gather up-to-date information about the status of the Soviet missile program. Following a National Security Council meeting on 12 February, Chairman of the Joint Chiefs of Staff Twining, Secretary of Defense McElroy, and Deputy Secretary of Defense Quarles stayed behind to talk to the President about overflights. They hoped that the need to refute criticism of the missile gap from Symington and other Democratic I.J"''"'"'a"" the President to loosen his policy on the use out that no matter how often Alien

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availability of this new equipment. Quarles objected that the satellites would not be ready for up to two years, but the President replied that this did not matter because the Soviets would not be able to build a first-strike force of ICBMs in the near future. President Eisenhower finally conceded that "one or two flights might possibly be permissible," but he ruled out "an extensive program." In light of the "crisis 6 which is impending over Berlin" he did not want to be provocacive. As the missile-gap controversy raged, President Eisenhower stuck to his refusal to permit overtlights of the Soviet Union, although the Soviet Union's resumption of ICBM testing almost persuaded him to change his mind. On !0 April 1959, the President tentatively approved several overflights. but, on the following day, he called in McElroy and Bissell to inform them that he was withdrawing his authorization, explaining that "there seems no hope for the future unless we can make some progress in negotiation." Eisenhower remained worried by "the terrible propaganda impact that would be occasioned if a reconnaissance plane were to fail. .. Although he agreed that new information was necessary, especially in light of the "distortions several senators are making of our military position relative to the Soviets," Eisenhower believed that such information 7 would not be worth "the political costs. " The President remained willing to consider flights that did not overfly Soviet territory. and in June he authorized two electronic intelligence collection missions along the Soviet-Iranian border. The two missions of Operation HOT SHOP took place on 9 and 18 June 1959. The first of these missions was noteworthy because it involved both an Agency U-2 and an Air Force RB-57D Canberra. The two aircraft cruised along the Soviet border and made the first telemetry intercept ever from a Soviet ICBM during flight, 80 seconds after launch.$

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to gather intelligence on the Soviet missile program. Discussions continued the following day with the addition of Secretary of State Herter, who stated in support of the CIA proposal that "the intelligence objective outweighs the danger of getting trapped." The strong backing of the proposed overflight by both CIA and the State Department finally convinced President Eisenhower to approve the .

miSSIOn.

On 9 July 1959. more than 16 months after the previous overflight of the Soviet Union, a U-2 equipped with a B camera left Peshawar. Pakistan. flew over the Urals, and then crossed the missile test range at Tyuratam_ This mission, known as Operation TOUCHDOWN, produced excellent results. Its photography revealed that the Soviets were expanding the launch facilities at Tyuratam. While this overflight was under way, another U-2 flew a diversionary mission along the Soviet-Iranian border.") Despite its success, this overflight remained an isolated incident. President Eisenhower was unwilling to authorize additional overflights of the Soviet Union, in part because he did not wish to increase tension before Premier Khrushchev's visit to the United States scheduled for 15-27 September 1959. Nevertheless, the President still wanted as much intelligence on the Soviet missile program as possible. Because the Soviets were conducting an extensive program of missile tests in mid-1959, Eisenhower authorized a steady stream of the less provocative electronic intelligence (ELINT)-gathering missions ( 14 in the Soviet border during the remainder of the year.

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mention of overflights by the United States. After the trip was over, Khrushchev and other leading Soviet officials continued to make exaggerated claims about the extent of their missile force, adding to the confusion and concern within the US intelligence community. Thus in November 1959, Soviet Premier Khrushchev told a conference of journalists, "Now we have such a stock of rockets, such an amount of acomic and hydrogen weapons, that if they attack us, we could wipe our potential enemies off the face of the earth." He then added that "in one year, 250 rockets with hydrogen warheads came off the as1 sembly line in the factory we visited." : Because the Soviet Union had been launching at least one missile per week since early fall, US policymakers placed great weight on his remarks. Despite the intelligence community's intense interest in the Soviet Union's nuclear and missile programs, President Eisenhower did not authorize any more overflights of the Soviet Union during the remainder of the year. On the other hand, he raised no objections to (and probably welcomed) the first British overflight of the Soviet Union in December 1959. For almost a year, the RAF pilots of Detachment 8 had been ready to fly over the Soviet Union, but Prime Minister Harold Macmillan had not previously authorized any such missions because of his own visit to the Soviet Union, several international meetings, and other state visits. As a result. British U-2 missions had been confined to the Middle East. Now that the Prime Minister's approval had been obtained, Detachment 8 conducted Operation HIGH WIRE with an RAF pilot. Squadron leader Robert Robinson left Peshawar on 6 December and overflew Kuybyshev, Saratov Engels Airfield, and the Kapustin Yar Missile Test Range before landing at Adana. The mission photography was excellent, but it did not provide intelligence on Soviet ICBMs, which were tested at not Yar.

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Scaff Nathan Twining each gave different figures for the number of deployed Soviet missiles. Although the CIA figures were based on evidence gained from overflights, Dulles could not reveal this fact to the Senate and, therefore, fac ed very sharp questioning.'" As a resulr of rhese Senate hearings, Dulles was determined to obtain perm ission for more overflights in order to settle the missile-gap question once and for all and end the debate within the intell igence community. To accompl ish this, Du lles proposed photographing the most likely areas fo r the dep loy ment of Soviet missi les. At this time there was still no evidence o f SS-6 ICBM deployment outside the Tyuratam missile tes t range . Because the SS-6 was extreme ly large and liqu id fue led, analysts believed these missiles could only be deployed near railroads. Existing U-2 photography sho wed rai lroad tracks going right to the launching pad at the test si te. Dultes. therefore argued that SS-6 installations could easil y be located by fl yi ng along rai lroad li nes. Dulles was supported by me mbers of the

" Licklider... Missile Gap Controversy." pp. 608 -609

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President's Board of Consultants on Intelligence Activities. At a meeting of the board on 2 February 1960, Gen. James Doolittle urged President Eisenhower to use overflights of the Soviet Union to the maximum degree possible. The President's response, as summarized in General Goodpaster's notes of the meeting, showed that the upcoming summit meeting was already an importam factor in his attitude toward U-2 flights: "The President said that he has one tremendous asset in a summit meeting, as regards effect in the free world. That is his reputation for honesty. If one of these aircraft were lost when we are engaged in apparently sincere deliberations. it could be put on display in Moscow and ruin the President's effectiveness. ' 5 A few days later, another U-2 took to the sky on a mission over the Soviet Union. As in December, the pilot was British, and the mission had been ordered by Prime Minister Macmillan. On 5 February 1960, a Detachment B U-2C with squadron leader John MacArthur at the controls left Peshawar, Pakistan, to conduct Operation KNIFE EDGE. The plane overflew the Tyuratarn Missile Test Range, headed northwest to Kazan'. and then turned south, photographing long stretches of the Soviet rail network. The excellent photography from this mission did not reveal a single missile site, but analysts did discover a new Soviet bomber, dubbed the BACKFIN, at Kazan' .â&#x20AC;˘â&#x20AC;˘ Despite the outcome of this mission. the missile-gap debate continued. The Air Force still insisted that the Soviets had deployed as many as !00 missiles. The Army. Navy, and CIA, however, doubted that any had been deployed, because none could be found. Additional U-2 phomgraphy was needed to settle the debate. In mid-February, President Eisenhower reviewed plans for four additional U-2 missions. The success of the two British missions, with the absence of Soviet made the

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In authorizing another overflight of the Soviet Union, President Eisenhower directed that it be conducted before 30 March. Because of complications in getting permission from Pakistan to use the airfield at Peshawar, however, the mission could not be staged in March, and the President agreed to extend his deadline until lO April 1960. One day before the expiration of this deadline, a U-2 equipped with a B-camera took off from Peshawar on the last successful overflight of the Soviet Union, Operation SQUARE DEAL. As had been the case during the previous two overflights. a second U-2 flew a diversionary mission along the Soviet-Iranian border. After leaving Peshawar, mission 4155 headed first for Saryshagan, where it obtained the first pictures of two new Soviet radars, the HEN HOUSE and HEN ROOST installations. The U-2 then flew to the nuclear testing site at Semipalatinsk. Returning to the Saryshagan area, it crisscrossed the railroad network there and then proceeded to Tyuratam, where it photographed a new two-pad, road-served launch area that suggested a new Soviet missile was in the offing.'~ In his memoirs Nikita Khrushchev remarked that this U-2 should have been shot down, "but our antiaircraft batteries were caught napping and didn't open fire soon enough." Khrushchev explained that Soviet missile designers had developed a high-altitude antiaircraft missile and batteries of this missile had been deployed near known 9 targets of the U-2.' The CIA already had strong indications of improvements in the Soviet air defense system, and early in 1960 the Development Projects Division had asked Air Force experts at the Air Technical Intelligence Center (ATIC) for a frank assessment of Soviet capabilities against the U-2. On 14 March 1960, CoL William Burke, acting chief of the DPD, relayed the ATIC assessment to Richard Bissell:

threat to the is the Soviet SAM. Although the that the SAM mav concedes a remote ""'"rrn;p than evaluation is that

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One of the reasons why Operation SQUARE DEAL had been selected for the 9 April flight was that mission planners believed that penetration from the Pakistan/Afghanistan area offered the greatest chance of escaping detection by the Soviet air defense system. Colonel Burke's 14 March letter recommending SQUARE DEAL as the preferred route for the next overflight had stated, "There is a reasonable chance of completing this operation without detection." Escaping detection had become important because, if the Soviet SAMs received sufficient advanced warning, they posed a major threat to the U-2. ClA hopes that flights from Pakistan or Afghanistan might go undetected proved false. On the 9 April overnight. the U-2's ELINT-collection unit (System VI) indicated Soviet tracking at a very early stage of the mission. Although the Soviets failed to intercept the U-2. their success at tracking it should have served as a warning against future overflights from Pakistan (or anywhere else, for that matter). On 26 April 1960, Colonel Burke informed Richard Bissell that "experience gained as a result of Operation SQUARE DEAL indicates that penetration without detection from the Pakistan/ 11 Afghanistan area may not be as easy in the future as hereto for... Unfortunately. neither Colonel Burke nor Richard Bissell took the logical step of recommending the cessation of overflights now that the risks had increased substantially. The lure of the prospective intelligence gain from each mission was too strong, and the Soviets' lack of success at interception to date had probably made the project staff overconfident. Furthermore, both DCI Allen Dulles and the President's Board of Consultants on Foreign Intelligence Activities for more photos of the Soviet Union in order to settle in the and debate

THE lAST OVERFLIGHT: OPERATION GRAND SlAM

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strengthened when the Soviet Union did not protest the 9 April mission. As Presidential science adviser George Kistiakowsky later remarked about the lack of protest, "This was virtually invitin g u.s to repeat the sortie.,.:: Although President Ei se nhowe r had authorized anoth er overfli ght for Apri l, he left the designation of its targets up to the experts at the CIA. Of the three miss ion s that remained under consideration. o ne- Operation SUN S POT-wou ld ove rfly southern targe ts . Tyuraram and V!adimirovka, while the other two wou ld cover rail road networks in the north-central portion of the Sov iet Unio n. The intelligence co mmun ity had been interested in thi s area ever si nce late 1959, when there were indications rhar the Sovie ts were building an SS-6 launc h facility there. This was the first ind icatio n that SS-6s m ight be located anywhe re other than Ty uratam test ing facil ity. where the mi ssi les were launched from a ge neral pu rpose launching pad. The inrel ligence community was anx ious to obtain photography o f a

·· George B_ Kl:\ttakow~ky. A 5<-·ierrt!'st at rhf! Un i v~r~llv Pres.-;, !':l16l. p. 32~

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deployed SS-6 site because it could provide exemplars for photointerpreters to use in searching subsequent overhead photography for similar instal!ations. 13 The two proposed overflights that would cover the northern railroad lines received the strongest consideration. Both plans contained new features. Operation TIME STEP called for a U-2 to take off from the USAF base at Thule, Greenland, which would be the first overflight staged from this base. The aircraft would then fly over Novaya Zemlya on its way to cover the railroad lines from the Polyarnyy Ural Mountains to Kotlas. The return flight would be over Murmansk with the landing to take place at either Bodo or Andoya on Norway's northeast coast. The other proposed overflight. Operation GRAND SLAM, was the first U-2 mission planned to transit the Soviet Union; all previous missions had penetrated not more than halfway and then left in the general direction from which they came. GRAND SLAM proposed to fly across the Soviet Union from south to north, departing from Peshawar, Pakistan, and landing at Bodo, Norway. The mission would overtly Tyuratam, Sverdlovsk, Kirov, Koclas, Severodvinsk, and Murmansk. The two preferred missions both required the use of the airfield at Bodo. which had been authorized by senior Norwegian intelligence and military officers. Because the Bodo airfield was involved in NATO maneuvers taking place in the Barents Sea area, Bissell informed the White House that neither mission could be flown before 19 ApriL Once the maneuvers ended, bad weather over the Soviet Union kept the mission from taking place when it was originally scheduled. Richard Bissell, therefore, asked President Eisenhower for the

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of Soviet ICBM sites~ The other proposed overflight, Operation TIME STEP out of Greenland, was more likely to run into bad weather (which would affect both navigation and photography) because the rlightpath would remain above 60° north latitude during the entire mission~ Furthermore, mission planners opposed this route because of its greater risk~ In his letter to Richard Bissell on 14 March 1960, Colonel Burke stated:

Operation ''Tilvf£ STEP" is our last choice because we can asswne, with a 90 percent probability of being correct, that we will be detected on entry, tracked accurately throughout the period in denied territory (approximately four hours), and will evoke a strong PVO [Soviet Air Defense] reaction. This flight plan would permit alerting of SAM sites. and pre-positioning of missile equipped fighters in the lvfurmansk area (poittt of exit) thus enhancing the possibility of successful itttercept. In addition, we must assume that even were the Soviets unable to physically interfere with such an incursion. sufficient evidence will be avail· able to permit them w document a diplomatic protest should they desire to do so. 15 The concerns raised by Colonel Burke abouc TIME STEP should also have been raised about Operation GRAND SLAM, which would be the most adventuresome overtlight to date because it proposed covering so much of the Soviet Union. If the Soviets could track the U-2 early in the mission, they would have plenty of time w prepare ro intercept the aircraft.

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hours on the ground. Originally scheduled for Thursday, 28 April, GRAND SLAM was canceled because of bad weather over the north~ em Soviet Union. This had been the case for the past several weeks. When this night was canceled. rhe U-2 returned to Adana before sunrise. That evening the U-2 new back to Peshawar for another attempt to the mission early on the 29th, but bad weather again forced cancellation of the mission, and the U-2 returned to Adana. Because of continued bad weather over the target areas, no mission was planned for Saturday, 30 ApriL'n Meanwhile, the plane ferried to Peshawar on 27 and 28 April had accumulated so many hours of flight time that it had to be removed from service for periodic maintenance. A different aircraft was, therefore, ferried to Peshawar on Saturday night, 30 ApriL This aircraft. article 360, had made a crash landing in Japan during the previous September (see chapter Although it had been refurbished by Lockheed and now had the more powerful 175 engine that would give it greater altitude, pilots did not completely trust this aircraft and considered it a "hangar queen." As Powers noted in his memoirs. ,. [ts current idiosyncrasy was one of the fuel tanks, which wouldn't feed 17 all its fueL" The aircraft was equipped with a B-model camera, a System路 VI electronic intelligence unit, and a System-IXB device, which generated false-angle information in response to the radar used by some Soviet airborne-missile lire-control systems. Operation GRAND SLA.\t mission 4154 and the 24th deep-penof the Soviet Union, began almost 30 minutes late I May 1960. a due to difficulty in takeoff This

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code letters JGOHB, JGOHB as they tuned from one prearranged frequency to the other. Then one of the Peshawar operators decided to tune in the guard frequency where the Morse transmission was stronHe was able to discern a break in the letters, making the message read "HBJGO HBJGO. The Peshawar operators realized this stood for "HBJARGON Go." The detachment chief, Col. William Shelton, who had been waiting anxiously inside the radio van for a "Go" or "No Go" message, leaped from the van and ran across the field to give the signal for takeoff ro Powers, who was sitting in the U-2C at the end of the runway.'g Powers started his takeoff roll at 0 159Z on l May 1960. Once airborne, Powers guided his aircraft toward Afghanistan. Following standard operating procedure, Powers clicked his radio switch when he reached penetration altitude of 66,000 feet, which signaled the operations unit at Peshawar that everything aboard the aircraft was working and the mission would proceed as planned. Aside from this simple signal. Powers and all U-2 pilots maintained strict radio silence during penetration missions. Powers' first target was the Tyuratam Missile Test Range after which he headed for Chelyabinsk. just south of Sverdlovsk. The planned route would take him over Kyshtym. Sverdlovsk, northwest to Kirov. north over Yur'ya and P!esetsk, then to Severodvinsk, northwest to Kandalaksha, north to Murmansk, and, finally, west to Bodo. Norway. May Day turned out to be a bad time to overfly the Soviet Union. On this major holiday, there was much less Soviet military air so Soviet radars could identify and track traffic than the Soviets to the intrusion nn:rnrm of the Soviet still I

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area. The plane spiraling down toward the ground and Powers looked for a way out. Unable to use the ejection seat because centrifugal force had thrown him the canopy. he released the canopy and prepared ro bail out. waiting to arm the destruction device at the last minute, so that it would not go off while he was still in the plane. When he released his seatbelt. however, he was immediately sucked out of the aircraft and found himself dangling by his oxygen hose. unable to reach the destruction switches. Finally, the hose broke and he flew away from the falling aircraft After he fell several thousand feet. his parachute opened automatically. and he drifted ro earth where he was quickly surrounded by farmers and then by Soviet officials. His aircraft had not been destroyed by the crash. and the Soviets were able to idemify much of its equipment when they put it on display lO days later. Even if Powers had been able to activate the destruction device, however, it would not have destroyed the aircraft. The small explosive charge was only designed to wreck the camera. How had the Soviets succeeded in downing the U-:2? Although some CIA project ofticials initially wondered if Powers had been flying too low through an error or mechanical malfunction, he maintained that he had been flying at his assigned altitude and had been brought down by a near miss of a Soviet surface-to-air missile. This turned out to be the case, for in March 1963. the US air attache in MoscO\v learned that the Sverdlovsk SA-2 battery had fired a three-missile salvo that, in addition to disabling Powers' plane. also scored a direct hit on a Soviet fighter aircraft sent aloft to intercept the U-2" Mission planners had not known about this SAM site before the mission because they laid out flight plans to avoid known SAM sites.

THE AFTERMATH

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that the Soviets had discontinued radar tracking of the tlight's progress two hours earlier (0529Z), southwest of Sverdlovsk. Although there was no word from the Soviet Union concerning the missing U-2, key project personnel assembled in the Agency comrol cenrer that (with the exception of Bissell. who was out of town and did not arrive until 1530) to analyze the latest information and discuss courses of action. They quickly established a new project, known as Operation MUDLARK. to gather and evaluate all available information about the downed U-2." Bissell and the other project officials did not know whether Powers was dead or if the plane and camera had been destroyed. but they believed that there was no way that a pilot could survive a crash from an altitude above 70,000 feet They. therefore, decided to stick with the standard cover story for U-2 flights: that they were weather flights staged by the National Aeronautics and Space Administration (NASA)--originally the National Advisory Committee for Aeronautics. renamed in 1958. This cover story had been approved by the President in 1956. By the end of the day, the Operation MUDLARK officials had prepared a statement based on the standard cover story but modified to fit the available information on Powers' flight and to show Adana as the aircraft's base in order to conceal Pakistan's role in the mission. This revised cover story. along with a mission flight plan consistent with it, was sent to the field commander at Adana. to Air Force Europe headquarters. replace the cover story that had been prepared and distributed in advance of the mission. The first announcement of the new cover came late on 2 May the Adana base but it did not appear in print until the On NASA released

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This statement had been prepared for a "best case .. scenario. that is to say. one in which neither the pilot nor the plane and film survived. However, pilots had bailed out from extremely high altitudes and survived, and there was even evidence from previous U-2 crashes that much of the aircraft itself could be The small destructive charge aboard the U-2 was not sufficient to destroy much more than the camera. The tightly rolled film, which could reveal the exact purpose of the mission even if the pilot and aircraft did not survive, was very hard to destroy. Kelly Johnson later conducted an experiment that revealed film taken out of a completely burned-out aircraft could still provide usable imagery.}} After almost four years of successful U-2 missions, Richard Bissell and the rest of the Development Projects Division had become overconfident and were not prepared for the "worst case" scenario that actually occurred in May 1960. This failure played directly into the hands of Soviet Premier Nikita Khrushchev. who shrewdly decided to release information about the downed U-2 a little at a time, thereby encouraging the United States to stick with its vulnerable cover story too long. As he later wrote, "Our intention here was to confuse the government circles of the United States. As long as the Americans thought the pilot was dead. they would keep putting out the story that perhaps the plane had accidentally strayed off course and been shot down in the mountains on the Soviet side of the border.""' The first word from the Soviet Union came on Thursday. 5 May, when Premier Khrushchev announced to a meeting of the Supreme Soviet that a US "spyplane" had been downed near Sverdlovsk. He made no mention of the of its pilot Khrushchev's announcement aroused considerable interest in the media in the United States. and that same the State Department that continued the 路'weather

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This revelation completely demolished the US cover story, and senior admini s tration officials then debated what the appropriate course of action shoul d be. Allen Dulles offered to take responsibility for the overflight and resign , but President Eisenhower did not want to give the world the impression that he was no t in control of hi s administration . On Wednesday, II May, the Pres ident read a statement to the press in which he assumed full responsibility for the U-2 mission bu t left open rhe question of future overflights, even thoug h four days earl ier he had approved the reco mmendatio n of his key fo re ign policy adv ise rs to terminate all provocati ve in tell igence o perations 5 agai nst the Soviet Union.' The U--2 affa ir had its greatest conseque nces when the long-a waited summit meeting in Paris began less than a wed: late r on 16 May. Soviet Premier Kh rushchev insisted on being the fi rs t speaker and read a long protest about the overfli g ht, end ing with a demand for an apo logy from President Ei sen hower. In his reply " OSA Histon-. ch:t p. 1-l. pp. 1-l-16 (TS CoJ.::wnnJ) ; Bc:s<:hlos'>. MayJa,_ pp . .t)-66.

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Eisenhower stated that overflights had been suspended and would not be resumed, but he refused to make a formal apology. At that point the summit ended, as did all hopes for a visit to the Soviet Union by President Eisenhower.

THE WITHDRAWAL OF THE OVERSEAS DETACHMENTS The loss of Powers' U-2 ultimately resulted in the end of Detachment B in Turkey. As soon as the Development Projects Division teamed that Powers was alive in Soviet hands, it immediately evacuated the British pilots from Adana to protect the secret of their involvement in the project. Project officials hoped that t1ights might eventually resume from Adana, but President Eisenhower's order ending overtlights of the Soviet Union made this very unlikely. Less than four weeks later. a coup ousted the government of Turkish Premier Adnan Menderes on the night of 27 May 1960. Because the new govemment had not been briefed on the U-2. Project Headquarters refused to aiIuw any U-2 flights from Adana, even those necessary for maintaining the aircraft's airworthiness. As a result, no more U-2s flew out of Adana. Instead of being ferried home. three of the four remaining U-1s w.ere disassembled and loaded aboard C-124 cargo planes for the return trip to the United States." The fourth U-2 remained inside a hangar at lncirlik airbase for several years, looked after by a skeleton crew, in case the Adana installation needed to be reactivated, Finally the decision was made to Detachment B 's 44 months close down the Adana U-2 I

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Japanese Government, faced with growing anti-American sentiment and complaints in the press about the presence of "spyplanes" on Japanese territory, asked the United States to remove the U-2s. The very next day the CIA closed Detachment its C-2s were disman17 tled and returned to the United States aboard C-124s. In the midst of the furor in Japan, on I July 1960, just six weeks after the Paris Summit, Soviet fighter aircraft shot down an Air Force RB-47 on an electronic intelligence collection mission over international waters near the Soviet Union's Kola Peninsula. Two survivors were captured. The Soviet Union claimed that the aircraft had violated its airspace, while the United States denounced the Soviets for downing the plane over international waters. The acrimony exacerbated an already tense international atmosphere.'" One additional blow to the U-2 program came in the summer of !960. NASA. concerned about the damage to its reputation from its involvement in the U-2 affair and hoping to obtain international cooperation for its space program. decided to end its support of the cover story that U-2s were conducting weather research under its auspices.,., These developments resulted in a complete halt to all U-2 operations from overseas bases for more than six months. Pilots and aircraft from Detachments B and C were consolidated into Detachment G at Edwards Air Force Base, California. the unit formed after the ClA had vacated the Nevada site in 1957 as a result of AEC nuclear Detachment G now pilots from Detachment B and three pi!ms from Detachment C. Because Powers' had the

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THE FATE OF FRANCIS GARY POWERS Downed U-2 pilot Francis Gary Powers underwent extensive imerrogation at the hands of the Soviets. His instructions from the CIA on what to do in the event of capture were meager, and he had been told that he might as well tell the Soviets whatever they wanted to know because they could get the information from his aircraft anyway. Nevertheless, Powers tried to conceal as much classified information as possible while giving the appearance of cooperating with his captors. To extract the maximum propaganda value from the U-2 Affair, the Soviets prepared an elaborate show trial for Powers. which began on 17 August !960. Powers continued to conceal as much information as possible, but, on the advice of his Soviet defense counsel. he stated that he was sorry for his actions. The Soviet court sentenced him to I0 years' "deprivation of liberty," with the first three to be spent in • Jl pnson. During the next 18 months, confidential negorimions to obtain the release of Powers took place as the United States explored the possibility of trading convicted Soviet master spy Rudolf Abel for Powers. These negotiations were conducted by Abel's court-appointed defense counsel. former OSS lawyer James Donovan. in correspondence with Abel's "wife·· (probably his Soviet control) in East Germany. In November 1961, Acting DCl Pearre Cabell wrote to Secretary of State Dean Rusk supporting such a trade. and on I 0 February 1962 the actual exchange took place in the middle of the Glienecke Bridge connecting East and West Berlin. As part of the deal, American graduate student Frederick Pryor, who had been jailed in East Germany for was released at another location.

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with Powers' behaviorJ: After read ing the debriefing reports, Allen Dulles expressed support of Powers' actions and told Powers. "We are proud of what you have done." but Dulles had already res ig ned as DC I in November 196 1." The new DCI. John A. McCone. demanded a closer loo k at Powers路 actions and set up a Board of [nqu iry headed by re tired Fede ral Judge E. Barrett Pre ttyman. Afte r eight days of hearings and del iberation. the board reported o n 27 Fe bruary that Powers had acted in accordance with his instructions and had "complied wi th his obligations as an Americ;m citizen during this period ... The board, therefore. reco mme nded that he receive his back pay.

' ' James J Whn.: ... Franc is Gary Pow..:r"- Th..: Lrunak ing of Cl.-\ Hi,tory Sc:.ff. l<JH. p. !9 tSL

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The Prettyman Board's finding was based on a body of evidence indicating that Powers was telling the truth about the events of I May 1960: the testimony of the experts who had debriefed Powers after his return; a thorough investigation of Powers' background with testimony by doctors, psychiatrists, former Air Force and his commander at Adana; Powers' own testimony before the board; the results of a polygraph examination that he had volunteered to undergo: and the evidence provided by phowgraphs of the wreckage of his aircraft, which Kelly Johnson had analyzed and found consistent with Powers' story. Nevertheless, DCI McCone remained skeptical. He asked the Air Force to convene its own panel of experts to check Johnson's assessment of the photographs of the U-2. The Air Force quickly complied, and the panel supported Johnson's findings. McCone then seized upon the one piece of evidence that contradicted Powers' testimony-a report by the National Security Agency (NSA) that suggested that Powers may have descended to a lower altitude and turned back in a broad curve toward Sverdlovsk before being downed-and ordered the Prettyman Board to reconvene on I March for another look at this evidence. The board remained unconvinced by NSA's thin evidence and stuck to its original findings. A few days later, on 6 March 1962, Powers appeared before the Senate Armed Services Committee. which commended his actions. The Senate Foreign Relations Committee also held brief hearings on the U-2 Affair, with DCl McCone representing the CIA."" Although all of these inquiries found Powers to have acted properly, they did not release many of their favorable findings to the pubwhich had received a very negative image of Powers' behavior from sensational press and statements by public figures who were not aware of chose to ignore) the truth about Powers路 actions while in member of the Senate Relations

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snubbed by President Kennedy, who one year earlier had warmly welcomed two Air Force RB-47 fliers released by the Soviet Union. McCone remained hostile to Powers, and in April 1963 he awarded the Intelligence Star to all of the U-2 pilots except Powers. Finally on 25 April 1965, just two before McCone's resignation became effective, Powers received the Star (which was dated 1963 on the back) from DDCI Marshall S. Carter. Powers' return from captivity raised the question of what his future employment should be. This issue had already been discussed one year earlier by John N. McMahon, executive officer of the DPD. who noted that he and CoL Leo P. Geary (the Air Force project officer) were concerned about a major dilemma for the CIA and the US Government: "On the one hand we have gone ro considerable lengths to prove that the U-2 program was a civilian undertaking and not military aggression; on the other hand there is on file a document that assures Francis Gary Powers that if he so desires he may be reinstated imo the USAF." On 21 March 1961 McMahon wrote:

If we grant him [Powers J the right that is now his. namely reinstatement in the Air Force, then we would be subjecting ourselves to probable adverse propaganda by the USSR. Admitting little appreciation for the finer points of political and ps_vchological warfare, should Francis Gary Powers return to the USAF I suspect that the Soviets would have a "PP" field day illustrating our big lie. The question then. since we cannot permit Powers to return to the USAF. is what do we do with him. ' 7 Despite this negative recommendation, the Air Force agreed on 4 April 1962 to reinstate Powers effective ! July, a decision that was approved by the State Department, and White House. Then Powers' divorce and the Air Force. concerned about adverse reinstatement until the end of the In the meamime for Lockheed

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the U-2 project under the title Later he flew a light plane as a traffic reporter for a Los Angeles radio station and then a helicopter for a television station. On l August 1977. he and a cameraman from the station died when his helicopter crashed on the â&#x20AC;˘ -'9 way to an asstgnment

CHANGES IN OVERFLIGHT PROCEDURES AFTER MAY 1960 One of the most important changes in the overftight program after the loss of Francis Gary Powers' U-2 was the institution of more formal procedures for the approval of U-2 missions. During the first four years of U-2 activity, very few members of the Eisenhower administration had been involved in making decisions concerning the overtlight program. The President personally authorized all tlights over the Soviet Union and was consulted by Richard Bissell and either the DCI or the DDCl about each such proposed mission. In addition to CIA officials, the President's discussions of individual U-2 missions or of the program as a whole generally included the Secretary of State or his Under Secretary, the Chairman of the Joint Chiefs of Staff. the Secretary of Defense or his deputy. and the President's secretary. Colonel (later General) Goodpaster. The approval process under President Eisenhower was thus very unstructured. There was no formal approval body charged with reoverftight proposals: the President this authority in his hands and simply consulted with selected cabinet officials and advisÂˇ ers before reaching a decision. In 1959 the U-2 program had gained a second when British Prime Minister Harold Macmillan became the for missions conducted the RAF in Detachmem B.

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became more formal as the National Security Council became involved. Henceforth, proposed missions had to be submitted to the National Security Council (:.:SC) Special Group for approvaL In the early 1960s, the Special Group consisted of the DCI, the Deputy of Defense. the Under of State, and the Military Adviser to the President. After the Military Adviser, Gen. Maxwell Taylor, became Chairman of the Joint Chiefs of Stuff in 1961. his place on the Special Group was taken by McGeorge Bundy. the 5 President's Special Assistant for National Security Affairs. " Before requesting permission from the Special Group for a U-1 mission over denied territory. the CIA prepared a detailed submission justification for the proposed mission and maps showing the targets to be photographed. flight times, and emergency landing sites. Such submissions came to be knovâ&#x20AC;˘n as "black books" because they were placed in black, looseleaf binders. The decision of the Special Group was generally final, although on occasion controversial issues were presented to the President for his decision. This approval process did not come into play immediately after May !960 because there was a long pause in U-2 operations as the detachments returned from overseas. !t was not until late October 1960 that the next U-2 operation occurred. this time over Cuba. By this time the fult approval procedure had been estnblished, and the Group approved the mission (see chapter The approval process wa..<; not the only of the U-2 program that changed after !\fay 1960. The process for establishing requirements for overhead reconnaissance missions also became more formaL [n 1960 the US Board took over the Ad Hoc

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denied areas. whether by photographic. ELINT. CO!VIfNT. infrared. RADl~路H, or other means." The only exception ro COM OR's area of responsibility was "reconnaissance and aerial surveillance in direct support of actively combatant forces." By this time the Air Force had developed a large overhead reconnaissance program of its own, including a fleet of L'-2s, and, occasionally, there were contlicts between the areas of responsibility of COMOR and the military services for collection requirements. The Air Force had already won a major victory in 1958, when it claimed that the White House had given responsibility for peripheral reconnaissance of the Soviet Union to the military. DC! Dulles. who was always reluctant to become involved in matters that seemed to lie in the military's area of responsibility, did not resist this claim, and the Ad Hoc Requirements Committee stopped preparing requirements for peripheral flights. This ended a major requirements committee study. which sought to estimate what could be gained from U-2 oblique photography along the entire border of the Soviet Union. s: The last CIA U-2 mission along the Soviet Union's coasts occurred on 22 June . 1958; thereafter, the only peripheral missions conducted by the CIA were those along rhe Soviet Union's southern border with Iran and Afghanistan from bases in Pakistan and Turkey under covert arrangements with the host governments. Until the spring of 196 I, there was virtually no coordination of military reconnaissance even within the individual services. Each commander of a Theater or a Unified and Specified Command conducted his own independent reconnaissance activities. To meet the need for overall coordination of these activities at the na~ the Joint Chiefs of established Joint the

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:Vfost military reconnaissance missions were approved or disapproved at the JCS level, but the most sensitive missions were submitted through the Secretary of Defense to the Special Group for approvaL In addition to this Department of Defense approval path, the services could also submit requirements through the DCI using their representatives on COMOR. As a result, the military services had two channels for submitting reconnaissance missions to the 51 Special Group. The Agency had only one-COMOR. The main conflicts between the requirements commitree and the military services arose over missions in the Far East. fn the early 1960s, North Vietnam had not been designated a denied area by the US Intelligence Board (USlB), so the military services could plan missions there without consulting COMOR. Such missions. however, came very close to China. which was a denied area and, therefore. came under COMOR 's area of responsibility. Once the war in Southeast Asia escalated in 1964, the military services received responsibility for the entire area (see chapter To reduce the number of disputes between the competing CIA and Air Force reconnaissance programs and to manage the growing satellite program. the t\vo agencies worked our an agreement to provide overall coordination for reconnaissance activities at the national leveL The first such interagency agreement came in the fall of 196!, and it was followed by three additional agreements during the next four years. [nterest in coordinating the reconnaissance efforts of the military services and the CIA also affected the field of nh.r.t"'"'"''"h cation. In the wake of the of Francis the President's Board of

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center that would bring together photointerpreters from the Agency The report further recommended that the and the military CIA be placed in charge of the new center. Ignoring Air Force claims that it should head such a center, President Eisenhower approved the report's recommendation, and, on 18 January I 961, National Security Council Intelligence Directive (NSCID) No. 8 established the National Photographic Interpretation Center (NPIC). Henceforth, the director of NPIC would be designated by the DCI and approved by the Secretary of Defense, and the deputy director would come from one of the military services. The first director of NPIC was ArthurS. Lundahl, head of the CIA's Phoro-Intelligence Division. 55 One additional major change in the U-2 program in the years immediately following the May Day incident-although not directly related to the loss of Powers' U-2-was the departure of Richard Bissell from the CIA and the subsequent reorganization of the Agency's reconnaissance and scientific activities. The roots of Bissell's downfall went back to I January 1959, when he became Deputy Director for Plans and decided to place all Agency air assets in .the DDP in order to maintain control of his overhead .reconnaissance projects (the U-2 and its two proposed successors, the OXCART aircraft and the reconnaissance satellite). The previously independent Development Projects Staff became the Development Projects Division (DPD) of the DDP and now controlled all Agency air operations, including air support for covert operations. As a result, U-2s were occasionally employed for gathering intelligence to support DDP operations in addition to their mission of ctr:>ti"<Hr and tactical

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months as the Deputy Director for Plans, Bissell found himself involved in a major with Killian and Land. who were serving on President Kennedy's Intelligence Advisory Board (successor to the Eisenhower administration's President's Board of Consultams on Foreign Intelligence Activities). These two influential Presidential advisers strongly advocated removing the Agency's overhead reconnaissance programs from the DDP and placing them in a new, science-oriented directorate, but Bissell resisted this proposaL With his position in the Agency becoming increasingly untenable, Bissell resigned on 17 February 1962, after turning down an offer from the new DCI, John A. McCone, to become the CIA's firsr 56 Deputy Director for Research. Two days after Bissell's departure, the new Directorate came into existence, and it absorbed all of the Development Projects Division's special reconnaissance projects. Only convemional air support for the Clandestine Services remained with the DDP in the new Special Operations Division. The U-2 progmm was no longer connected with covert operations. The first half of 1962 was a confusing period for the Development Projects Division. After losing the individual who had created and supervised it for seven years, the DPD also lost its feeling of autonomy when it was transferred from its own building to the new CfA Headquarters at Langley. Soon afterward. Col. Stanley W. Beerli, who had headed the DPD since 1960, returned to the Air Force. Then on 30 July 1962, the overhead reconnaissance projects underwent a major reorganization with the formation of the new Office of Special Activities to the DPD. The original organization of I 0 division or staff heads to the director the Assistant Director for I

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Office of Special Activities Assistant Director for Special Activities Special Assistant for Liaison

Deputy Assistant Director Executive Officer

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U-2 Operations After May 1960

The loss of Francis Gary Powers' U-2 over the Soviet Union on 1 May 1960 marked the end of the aircraft's use over the Soviet Bloc. Soon after rhe May Day incident, President Eisenhower ordered an end to overflights. Similarly, his successor, John F. Kennedy, told a 25 January 1961 press conference, "I have ordered char the flights not be resumed, which is a continuation of the order given by President Eisenhower in May of last year." This was not a binding pledge, as John A. McCone (who became DCI in November 1961) poinced our to President Kennedy's successor, Lyndon B. Johnson, on 15 January 1964 in response to the new President's request for information on U-2 overflight policies:

Contrary to popular assumption, President Kennedy did not make any pledge or give an assurance, at least publicly, that there would be no further overflights. He limited his response to a statement that he had ordered that the flights not be resumed. An is valid until coumermanded.

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overflights of rhe Soviet Union during the Berlin Crisis in the summer and fall of 1961. On 14 September 1961, Kelly Johnson noted in his project log:

Have had request from Mr. Bissell ro propose ways and means for increasing safety of the U-2 on probable overflights . ... It seems that President Kennedy, who publicly stated that no U-2 s would ever be over Russia while he was president, has requested additional flights. Some poetic justice in this.! One week later Colonel Geary called to order Lockheed to upgrade six older U-2s into U-2Cs with the more powerful engines on a priority basis, even if it meant taking people off the work on the successor aircraft in order to speed up the conversions. Shortly thereafter, the resumption of overflights became a major topic of discussion within the intelligence community. On 25 September 1961, the Committee on Overhead Reconnaissance prepared a detailed "Justification for U-2 Photography over the USSR," which argued in favor of U-2 missions over selected, high-priority targets such as ICBM complexes. The COMOR paper stated that satellite photography did not provide sufficient detail to answer many critical questions about the Soviet ICBM program. To back up this contention, the report placed U-2 and satellite photography of the same Soviet targets side by side, clearly demonstrating the far supe~ rior resolution of the U-2's cameras. Not all members of COMOR supported the resumption of overflights, however. When COMOR formally recommended this course of action to the USrB on I !961, the State Department and CIA members found "insufficient for U-2 at time.

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Nothing came of the proposal to resume overflights in the fall of !96!, as both the USIB and the Special Group came out against it, bur, as long as U-2 photography remained clearly superior to satellite photography, the thought of obtaining U-2 coverage of the Soviet Union remained tempting. In February 1962, the USIB considered a COMOR proposal to send a U-2 over Kamchatka to photograph Soviet antiballistic-missile facilities but fina!ly decided to wait for the results of an Air Force peripheral mission. The board later accepted DC( McCone's recommendation to seek satellite rather than U-2 coverage of the area! With both the CIA and the State Department strongly opposed to sending the highly vulnerable U-2 over the Soviet Union, prospects for resuming flights remained slight unless the international situation worsened to such a degree that overflights would be worth the risks involved. Since this never happened. Francis Gary Powers' flight on I May 1960 proved to be the last CIA overflight of the Soviet Bloc. Yet, the U-2 remained useful, for it could operate successfully in other areas with less developed radar and air defense systems. After May 1960, the main focus of U-2 activity shifted to two new areas: latin America, where U-2s would play an extremely important role during the early 1960s, and the Far East. where CIA U-2s were active from 1958 until 1974, when the Agency's involvement in manned reconnaissance finally ended.

U-2 OPERATIONS IN LATIN AMERICA

Invasion the Directorate of Plans of for the

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Special Group to approve U-2 overtlights of Cuba. Known as Operation KICK OFF, these tlights were designed to obtain intelligence on Cuban air and ground order of battle and to provide geographic data for choosing an invasion site. To allay fears that mechanical problems could lead to the loss of a U-2 over Cuba, the submission to the Special Group for overflights emphasized that if a U-2 had a tlameout anywhere over Cuba, it could still glide back and make a safe landing in Florida. The Special Group approved Operation KICK OFF but stipulated thm only two overflights could be made. Detachment G staged the Cuban missions from Laughlin AFB near Del Rio, Texas, a base used by SAC U-2 aircraft. Agency photointerpreters went to Del Rio to read out the photography after these missions. The two flights, on 26 and 27 October I 960, were very long missions, covering 3,500 miles and lasting over nine hours. Because of cloud cover over Cuba, the results of both missions were poor. The Agency, therefore, asked the Special Group to approve additional missions. After receiving authorization, Detachment G conducted three missions (Operation GREEN EYES) on 27 November and 5 and II December I960 with good results. Overflights of Cuba continued under the new administration of President Kennedy. Under the codename Operation LONG GREEN, two overflights on 19 and 21 ~larch 196! photographed Cuba extensively to aid the final preparations for the invasion. Two weeks later Detachment G again deployed from Edwards AFB, California, to Laughlin AFB. Texas. Beginning on 6 April, Detachment G U-2s made 15 flights over Cuba to provide photographic coverage of the ill-fated of invasion and its aftermath. These were FLIP TOP. known as

Aerial

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Aftermath of the Bay of Pigs invasion, 20 April 1961

Refueling a U-2 in flight was a very delicate task. When fully loaded with fuel. KC-135 tankers found it difficult to reduce airspeed · to·200 knots, the safest speed for refueling a U-2. As for the U-2s, they were in a very vulnerable position when approaching a tanker at 200 knots because their frail wings could not stand much stress. As a result. U-2 pilots had to approach the KC-135 tankers very carefully in order to avoid the vortexes from the wingtips of the tanker and rhe turbulence caused by the four large jet engines. During the first few years of refueling operations, two U-2s crashed after their wings broke off as they crossed into the turbulent area behind the tankers: one of the pilots was killed ." The in-flight refuel ing capabi lity was a useful modification to the U-2, bu t it could not dramatically extend miss ion length . The main limiting facto r remained pilot fatigue, which prevented missions from lasting longer than appro ximately 10 hours.

U·2 Coverage During the Cuban Missile Crisis Cuba remained a high-priority target even after the Bay of Pigs invasion failed in Apri l 196 1. Soon afterward , Derachmem G U-2s began flying monthly miss ions over Cuba in a program known as Projec t

' lb•d .. p. 11 - 12 (TS Cod.:wordL

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In-flight refueling of a U-2

NIMBUS. Most of the flights were staged from Laughlin AFB. Texas, but three were flown from Edwards AFB, California. using in- Right refueling to extend the range of the aircraft. By the spring of 1962, having received reports of increased So viet activity in Cuba. the CIA requested permission for additional photographic coverage of the island. The Special Group authorized increasing the number of C uban overflights to at least two per month. beg inning in May 1962. At the same time. the Nationa l Photographic Interpretation Center began 1 publishi ng a Phocographic Evaluation of !nformarion on Cuba series. By early August 1962. CIA analysts had noted a substantial increase in Sovier arms deliveries to Cuba during the preceding weeks . The first U-2 overflight in August, mission 3086 on the 5th, flew too soon to detect the Soviet construction program j ust getting under way at various sites in Cuba. A second mission (3088) was originally set for 8 August but bad weather fo rced repeated postponemenrs until 29 August. This mission's phowgraphy provided the first hard evidence

路 Ibid .. pp. ! 9-20 (TS C<hleword).

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of the nature of the Soviet buildup in Cuba. Two days after the missio n, the CIA repo rted in the President :S lnrelligence Checklist that there were at least eig ht surface-to-air missi le (SA-2) sites in the western half of Cuba." (The map on page 202 shows the routes take n by the two August overflights.) On 5 September the next U-2 overflight (miss ion 3089) provided more evidence of the Soviet buildup. The mission's photography showed three more SAM sites and also revealed a MiG-21, one of the newest Soviet fighter aircraft, ar the Santa Clara airfield. The discovery of SAMs in Cuba had a twofold effect on the US reconnaissance effort over Cuba. First, it added substance to DC! McCone 's fears that Cuba might become a base for Soviet medi um-range ballistic missiles (he argued that SAM sites would only be set up to protect high-priority facilities such as missile bases). At this time. however, McCone's suspicions were not shared by other officials in the Agency or the administration. The second and most significant effect of the discovery of SAMs in Cuba was to make the administration far more cautious in its use of U-2s for reconnaissance . o_f_the island. As the loss of Francis Gary Powers' U-2 in May 1960 had demonstrated, the U-2 was very vulnerabl<! to the SA-2 missile.

DC/ John A. McCone

Within the administration. concern mounted about the U-2's vulnerability to SAMs in Cuba and the possibility that a loss could cause a major diplomatic crisis . Such fears increased as the result of two incidents in other parts of the world. On 30 August 1962, a SAC U-2 on a peripheral reconnaissance mission overflew Sakhalin lsland in the Far East, prompting a Soviet protest on 4 September. The United States apologized for the intrusion. Then on 8 September, a U-2 with a Nationali st Chinese pilot was shot down over the People 's Republ ic of China (this CfA reco nnai ssance program is discussed later in thi s chapter in the section on Asian operations). Increasing concern about U-2 vulnerability led to an impromptu meeting on 10 September 1962 of Secretary of State Dean Rusk, National Security Adviser McGeorge Bundy, and DDCI Marshall S. Carter (in place of the DCI, who was on his honeymoon in France) . The Secretary of State obto the CIA's plans for two extended overflights covering the remaining areas of Cuba not covered by the last two missions. Rusk wanted peripheral fli ghts over international waters kept separate from

' Richard L.:hman. "CIA Handling of the Sovi.:t Buildup in Cuba. I July-16 Octub.:r !962." 14 November 1962 (Hereafter cited as LehrnJn Rc:pon). DC! rc<.:on.!s . job 80- B-1 676R. bo~ 17. folder 18 (TS Codeword)

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205 overflights of Cuban territory. He argued that the loss of an aircraft on a mission that combined both types of Rights would make it difficult for the United States to stand on its rights to fly over international waters. Bundy and Carter therefore agreed to split the proposed reconnaissance program into four missions: two overtlights and two peripheral t1ights, all planned for maximum safety. The overflights were thus designed to be quick "in-and-out" operations across the narrow width of the island instead of Rights along the entire length of Cuba, as had been the case previously. (As the map on page 202 illustrates, the 5 September mission was the last one to tly along the length of the island.) As an additional precaution, flightpaths \vould be laid out to avoid known SAM sites. Although these changes greatly reduced the danger to the U-2, they slowed the gathering of information on the Soviet buildup by reducing each mission's ., coverage. To ensure that the photographs taken by these missions were of the highest quality. the CIA decided to conduct flights only when the weather along the flight routes was less than 25 percent overcast. Weather proved to be a major problem during the month of September. Unfavorable forecasts (along with a brief sranddown of U-2 overflights after the loss of the Nationalist Chinese U-2) prevented the launching of any missions from 6 through 16 September. Moreover. when mission 3091 finally flew on 17 September, the favorable weather forecast proved inaccurate and heavy clouds prevented the mission from obtaining usable photography. Bad weather continued to rule out missions until 26 September, when mission 3093 covered eastern Cuba and found three additional SAM sites. Three days later mission 3095 flew over the Isle of Pines and of area, one more SAM site and a coastal-defense cruise missile site.

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206 that had been placed on U-2 overflights of DCI McCone told the Special Group on 4 Ocwber 1962 that their pol icy of avoiding SAM sites had restricted the to using the U-2 only in Cuba's southeastern quadrant. He questioned '"whether this was a reasonable restriction at this time, particularly since the SAM's were almost certainly not operational." " The Special Group then requested the preparation of an overall program for reconnaissance of Cuba in time for its next meeting on 9 October. In the meantime, CfA U-2s continued the reconnaissance program that the Special Group had approved in September. In early October two peripheral missions-3098 along the southeastern coast on 5 October and 3100 along the northern coast on 7 October (see map on page 203)-discovered an additional five SAM sites. This brought the total to 19, but there was still no evidence of surface-to-surface missiles. Evidence was mounting that the portion of Cuba that the September and early October missions had avoided was the most likely location for Soviet medium-range ballistic missiles (MRBMs). On 6 October 1962, rhe Committee on Overhead Reconnaissance recommended frequent and regular coverage of Cuba, pointing in particular to the need for renewed coverage of western Cuba:

The absence of of the western end since August 29, construction we have observed, means coupled >vith the rate that there may well be many more sites now being built which Ground observers have in several recent in~ what believe ro be the SS-4 reports must be

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207 defenses of Cuba. lf this did not an SA-2 reaction. the recommended "maximum coverage of the western end of the island by u-2s simultaneously." Because the by the SA-2 sites was one of the topics at the Special DCI Jack C Ledford (USAF), head of the Office of Special Activities. who presented a analysis that estimated the odds of losing a U-2 over Cuba at I in 6. The Special Group approved the recommended tltght over San CristobaL As the Special Group meeting was breaking up. Deputy of Defense Roswell Gilpatric and the Air Force representative questioned the adequacy of the cover story. which was that its pilors were Lockheed employees on a ferry tlight co Puerto Rico. The Air Force and DOD representatives argued that it would be bener co use Air Force pilots and state in the event of a mishap that the overflight was a routine Air Force peripheral surveillance mission that had gone off course. McCone then asked Colonel Ledford's opinion of the proposed change. Ledford agreed that the DOD cover story was better but pointed out that the SAC U-2s were much more vulnerable than those of the Agency. which had superior electronic countermeasures and a higher maximum altirude. Ledford then that Air Force pilots use Agency aircraft after receiv~ familiarization training. After leaving the Special Group McCone and met with President Kennedy, who approved the San Cristobal mission and the use of Air Force '"

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208 Washingto n fo r California and did not return until 14 October. Air Force control of the Cuban over t1ighrs became official on 12 October, when President Kennedy transferred " responsi bi lity, to include command and comrol and operationa l deci s ions . with regard to U-2 re connaissance overflights of Cuba" from the CIA to the Department of 5 Defense. ' The A ir Force then asked to borrow two of CIA's U-2Cs.

DOC/ Marshall S. Carter

The Acting DCI . Lt. Gen . Marshall S. Carter. US Army. reacted strong ly to the Air Force takeover of a major CIA operation. At one point he remarked . 路路r think ir's a hell of a way to run a railroad . l!'s 6 perfecrly obviously a geared operation to ger SAC in the act." ' In a series of co nversation s with hi gh -ranking Air Force and administrarion officials. Carter argued against changing command and control of the !lights at such a crucial time. The Agency operation, Carta pointed out, was already in place and working well, whereas the Air Force lacked experience in controlling U-2 overflights , particularl y with the U-2C. which was not in the Air Force in ven tory. Carter al so emphasized that Air Force pilots lacked experience with the more powerful 175 engines in the U-2C. He told Roswell Gilpatric, '路To put in a brand new green pilot just because he happens to have on a blue suit and to completely disrupt the command and control and commu nication and ground support system on 72 hours路 notice to me doesn ' t make a God damn bit of sense. Mr. Secretary." " DDCl Carter admit ted that the Air Force 's cover story was probably better than the CIA's bu t s uggested at one point. " Let's take one of my boys and put him in a blue suit. " '" Realizing, however. that the pilot would probably have to come from the Air Fo rce. Carter concentrated hi s efforts on tryin g to conv ince DOD and admi nistrati on officials to conduct an o rderl y trans it ion by a ll owing the CIA to co ntinue its operation for a fe w weeks usi ng an Air Force pilot, and the Air Force gradually raking over com mand and co ntrol. Carter 's efforts were in vain. The Air Force insisted on im mediate control of the operatio n. and adm in istration officials were unwil ling to become invo lved in what they

" :..le morandum for DC I McCone from McGeorge Bundy. "Reconnaiss,ance Overflights of Cuba." i2 October 1962. OC! records . job 30- B-1 676R. bm 17. fo lder 18 (TS J. ,. Te lephone conversation between DOC ! Carter and :VkG.:orge Bundy, U October 1961. DC! reco rd~. job 80- B- 1676R. boK 17. foh.kr 18 CTS Codeword) '' Tele phone conversation be twee n DOC I Cartt::r and Roswell Gilpatric. 12 October 196 2. DC I r.:cords. job 80-S -! 676R. box 17. foltkr Ill (TS Codeword). " Telephone con v.:rsation between DOC I Carter and Gen. Wi lliam \ k K.:e. I 2 Octobc:r 1962. DC! records. job 80-B-l676R. bo' 17. fold.:r IS rTS Cod.:word).

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209 perceived as a jurisdictional dispute. Presidential Assistant for National Security Affairs McGeorge Bundy told DDCI Carter that "the whole thing looks to me like two quarreling children." '" Furthermore, no one wanted to speak out against a decision that the President had made. Once the decision was clearly irrevocable, the Agency gave its complete support to the Air Force in preparing for the upcoming overflight. A SAC U-2 pilot had already arrived unannounced at the CIA's U-2 Detachment at Edwards Air Force Base on ll October. and the CIA U-2 detachment put him through a hasty training program to familiarize him with the U-2C. By Sunday, 14 October 1962, the weather over Cuba had cleared, and the first SAC overflight of the island rook place. When the U-2 returned, its film was rushed to the National Photographic [nterpretation Center. By the evening of 15 October, photointerpreters had found evidence of the presence of MRBMs in the San Cristobal area. NPIC Director Arthur Lundahl immediately notified DOÂŁ Ray Cline. who in tum notified DDCl Carter (DCI McCone had again left town). As the readout progressed and the evidence became firmer. the DDI notified National Security Adviser Bundy and Roger Hilsman of the Department of State's Bureau of Intelligence and Research, who informed Secretary of State Dean Rusk. On the following morning, 16 October, DDCI Carter briefed the President on the results of the 14 October mission.Zl' Now thac the presence of Soviet medium-range surface-to-surface missiles in Cuba had been confirmed, the rules for U-2 mission approval The Air Command received blanket apto as many missions as needed to cover Cuba completely. the the week that fo!-

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Soviet MRBM site in Cuba, 7 October 1962

thousands of feet of film returned by Air Force and Navy reconnaissance aircraft. President Kennedy used NPIC phocographs to illustrate his address to the nation on 22 October 1962, when he revealed the Soviet missile buildup in Cuba and declared his "naval quarantine" to prevent the shipment of offensive weapons to Cuba. On 27 October, at the height of the crisis, one of the U-2Cs lent by the Agency to the Air Force was shot down over Cuba. ki lli ng the pilot, Maj . Rudolph Anderson. This loss agai n illustrated the V-2 's vu lnerabili ty to the SA-2 miss ile. Nevertheless. SAC U-2 overflights continued, both during and after the crisis. Responsibili ty for photographic coverage of Cuba remai ned wi th the Air Force; Agency pi lots never flew another mission over the island . Although SAC carried out most of the U-2 activity durin g the Cuban Missile C ri sis. the Agency's U-2 miss ions had made vital contributions during the in irial stages of the crisis. fn all , Project IDEA U ST pi lots had spent 459 hours ove rflying Cuba during 196 1 and 1962. They had pro vid~ d concrete evidence of the Soviec buildu p on the island, evidence that was simply not available through any

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211 other means. Although by late 1962 photographic satellites had become an integral part of the overhead collection program, only U-2s could provide the highly detailed photography that photointerpreters needed to spot the early stages of work on missile sites. Attempts had been made to photograph Cuba with sarellites, bur to no avail because the satellites' normal orbits placed them over Cuba at rhe wrong time of day, after clouds had formed.

U-2s Over South America Agency U-2s again conducted operations in the Western Hemisphere in December !963. The Direcwrate of Plans had requested photographic coverage of Venezuela and neighboring British Guiana because of guerrilla activities conducted by a pro-Castro movement inside Venezuela. Supplies for this movement appeared to be coming across the border from British Guiana. On 30 November 1963, the NSC Special Group approved overflights of the British GuianaVenezuela border to determine the scope and rate of buildup of guerrilla forces. The Special Group stipulated rhar the entire effort was to be conducted without the knowledge of either the British or the Venezuelans. Within three days, several Detachment G aircraft and pilots deployed to Ramey AFB, Puerto Rico, from which they made six flights over the border areas between 3 and 19 December ! 963 in an operation known as SEAFOAM. The results of the effort were inand the task force returned to Edwards AFB on 22

U-2 OPERATIONS IN ASIA Detachment C and the Indonesian Revolt of 1958

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Long unhappy with President Achrned Sukamo's perceived sympathy to Communism and his institution of "guided democracy" in Indonesia, the CIA, after consultation with the State Department, began in early 1957 to supply financial assistance to a group of dissident Indonesian Army officers on the island of Sumatra. By 25 September 1957, the National Security Council had become concerned with the course of events in Indonesia and on its recommendation President Eisenhower authorized the Agency to "employ all feasible covert means" to support the dissidents. Planning for increased aid of all types began immediately, and in January 1958 a US arms shipment for the dissidents arrived in Sumatra. Then on 10 February, the simation carne to a head. While Sukamo was ouc of the country on a state visit to Japan, the dissident army colonels, without consulting CIA, organized a Revolutionary Council in Padang, West Sumatra, and demanded the abolition of President Sukamo's "guided democracy." Five days later, this council proclaimed itself the new "Revolutionary Government" of Indonesia. President Sukamo's armed forces responded swiftly to this threat. In late February the Indonesian Air Force began bombing dissident strongholds, and by mid-March government forces were conducting an all-out air-sea-land drive against the rebel-held areas in central Sumatra. Although the Sumatran rebels were falling back. additional unrest broke out over I ,800 miles away in the islands of Celebes (Sulawesi), and CIA quickly began supplying weapons to these dissidents, too. ~1 Increasingly involved in Indonesia, the Agency urgently needed accurate information on the situation there. As in previous crises, U-2s flew reconnaissance missions. On 24 March !958, the Staff moved the entire complement of Development Detachment C's pilocs and from to a base more Air Station in the that could

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The first U-2 mission over Indonesia rook place on 28 March 1958. By !2 June, when the operation was phased out, Detachment C U-2s had flown 30 missions over the major islands of Indonesia. Sanitized photos from these missions were used to brief members of the DDP's Covert Action Staff (CAS), who were in of a small force of World War II-vintage aircraft such as P-51s and B-26s used to support the rebel troops. The CIA's proprietary, Civil Air Transport, supplied the aircraft, which were based on the Indonesian island of Mororai and flown by mercenary pilors. Desperately short of pilots, the CAS asked if some of the U-2 pilots with experience in World War H aircraft could be detailed to the Morotai effort. Although such a request represented an improper use of the highly trained U-2 pilots and posed a potential threat to the entire U-2 program if one of them were captured, Richard Bissell agreed to send pilots James Cherbonneaux and Carmine Vito to help. Both were experienced with World War II aircraft, although Vito had never flown the rebels' fighter aircraft, the P-5! Mustang. After arriving on Morotai, Cherbonneaux explained to Vito how to fly the fast and powerful Mustang while the two were sining at a makeshift bar on the edge of the airfield. Several days later, when Cherbonneaux was off the island on another mission, a flight of Indonesian twin-engine bombers of Czechoslovak manufacture was spotted making its way toward the island. Exclaiming, "I'm not going to sit around and wait w be bombed." Vim had a Filipino mechanic start up a P-51 sitting on the tarmac. fn his first and only flight in a P-51, Vito managed to the plane off the ground. Once he was airborne and turned in the direction of the lumbering all took in as many directions 50-caliber rounds in the dias there were aircraft After the the field and landed the

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215 wanted no more part of ic The US Government rapidly withdrew its support, and the remaining remnants of the rebellion collapsed. Four years the fndonesians freed Pope after Attorney General Robert Kennedy personally appealed to President Sukarno. When the revolt ended. the U-2s returned to Atsugi. On the way back, one of the planes, which was equipped with a System- V electronic intelligence unit. flew along the coast of China to gather data radars. on Communist

China Offshore Islands

of 1958

During the summer of 1958, tension between the People's Republic of China and Nationalist China (Taiwan) increased to such an exrent that on 18 June Detachment C mounted a U-2 mission to film the Chinese mainland coast and adjacent island areas. On I! August, People's Liberation Army (PLA) artillery began bombarding the offshore islands of Quemoy and Little Quemoy. where the Nationalists had stationed large numbers of troops to ward off any invasion. On 23 August the Communists increased the shelling. After five days of intense bombardment. which made resupply of the islands from Taiwan impossible, the PLA commander ordered the Nationalist garrisons to surrender, intimating that an invasion was imminent. The Nationalists refused to surrender and received support from the United States in the form of warships from the 7th Fleet. which Nationalist to the

flew four missions over would that

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While the Offshore Islands Crisis was still in progress, Detachment C began conducting flights in support of its weather reconnaissance cover story. On 14, 15, and 16 July 1958, U-2s tlew high above Typhoon Winnie. which was causing great damage on Taiwan. These missions provided the first photography ever obtained of such a massive storm system. Photographs of the storm were the subject of articles in the magazine Weatherwise and the 21 July edition of Aviation Week. In September, Detachment C aircraft photographed two more typhoons.

U-2 Support for OOP Operations in Tibet The consolidation of all Agency air activities under the DDP in !959 led to increased involvement of the U-2 program with clandestine efforts against Communist governments. One important area of DDP activity during this period was Tibet. In March 1959, the PLA suppressed an uprising against the Chinese occupation of Tibet, and several thousand Tibetans ffed the country along with their spiritual leader, the Dalai Lama. Afterward, Agency operatives from the DDP's Far East Division began training some of these Tibetan refugees for paramilitary operations inside Tibet. Once the Tibetans completed their training, FE Division planned to parachute them back into Tibet. Such missions, however, required derailed maps and aerial photographs of the areas of operation. Richard Bissell, therefore, obtained permission from the President to use Detachment C U-2s co provide the necessary photography. Operation MILL TOWN, as the reconnaissance missions over Tibet were known. consisted of two missions staged from Cubi Point Naval Air Station on 12 and 14 May 1959. The photography revealed and that had built new roads with

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in. The 路caging base in this case was Ta Khli, Thailand. These flights did not go unnoticed; on 13 September 1959, Hong Kong's China Post published a story headlined "U-2 o f USAF Said Reconnoitering 7 Red China at Unreacha ble Altitude." !

U-2Cs for Detachment C Late in 1958, Lockheed began refitting the Agency 's 13 remaining U-2s with the more powe rful Pratt & Whitney 175/P- I 3 jet engi ne . T he first of these U-2Cs arrived at Detachment C in the sum mer of 1959. Du ri ng a res t tli ghr of thi s aircraft (article 360 ) on 24 Se ptember 1959, (he pi lo t decided to set a ne w altitud e record . " !bid .. chap. 18. pp. 6-7, !:!; chap. !5. p. 29 (TS Codo!word ).

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Lhasa, Tibet, November 1959

Althoug h the pla ne was equipped with a camera, it carried no film a nd did no t have a fu ll load of fuel, whi c h made it cons iderably lighter chan a n o perat ional U-2C. As a res ult, the plane reac hed 76,400 feet- the highest altitude achieved by any o f the origina l U-2 aircraft. In the process. howe ve r. the a ircraft cons umed more fue l than was called for in the test fli ght plan, causin g the engine to fl ame ou t during the re turn ro base . The pilot then made an emergency wheels-up landing at a g lide r-club strip near Fujisawa. south of AtsugL The cras h did not cause any inju ries or serious damage to the airc raft. but it did bring unwanted pub licity ro the U-2 program. Muc h o f the publicity resu lted from the actions of Detachme nt C's securi ty unit. whose conspicuous Hawaian shirts and large pistols drew the

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attention of One reporter even flew over the area in a helicopter, pictures of the U-2. These photographs ap8 peared in many 1apanese newspapers and magazines. '

U-2 Crash in Thailand Flights by Detachment C U-2s over Tibet and western China continued during the first half of 1960 under Operation TOPPER. The first mission on 30 March was very successful. The second mission on 5 April took good photographs but encountered mechanical problems. At the start of the mission, the landing-gear doors failed to close completely. resulting in increased drag and higher fuel consumption. With no fuel gauge ro warn the pilot of the critical fuel situation, the aircraft ran out of fuel far short of Ta Khli, forcing the pilot w make a crash landing in a rice paddy. The area was inaccessible to large vehicles, and the plane, article 349, had to be cut into pieces in order to remove it With the help of local villagers, the retrieval team dissassembled the aircraft for transport to the base, where the pieces were loaded onto a C-124 under cover of darkness. The crash and subsequent recovery of the U-2 did not attract the attention of the press; there was only one report in a local Thai newspaper. which simply referred to the crash of a jet plane .. [n ilppreciation for the assistance provided by the villagers, . ..... - . . gave the headman funds to build a new sd1oof"''

End of Detachment C The loss of two aircraft in slighdy more than six months left Detachment C with just two aircraft Fortunately, rhe level of mission remained low because Detachment C was no conduct~ of the Soviet Union.

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Recovery o f Article 349, April 1960

The publicity ge nerated by the U-2 incident stirred considerable controversy in Japan, and there were soon demonstrations against the continuing presence of U-2s in Japan. On 6 June 1960, project headquarters decided on a phased-out withdrawal of Detachment C between 15 July and l September. but th is ti metable had to be accelerated when the Japanese Governme nt fo rmall y requested !he removal of the U-1s on 8Ju ly."'

"' lbâ&#x20AC;˘J. chap. 15. pp. 33-36 (TS CU<.lewurJ)

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Detachment G Missions Over Laos and North Vietnam In the aftemwth of the Powers loss, both of the overseas U-2 detach~ ments returned to the United States and their aircraft and personnel into Detachment G at Edwards Air Force Base in California. This detachment was now responsible for providing coverage in Asia. and its first mission came in Laos. After the neutralist Laotian Government of Souvanna Phouma collapsed in early December 1960, reports began circulating that leftist antigovernment forces were using Soviet arms. Then on 30 December. a new Laotian Government appealed for UN aid against what it said was an invasion from North Vietnam and possibly Communist China. Alarmed over the possibility of the civil war expanding because of the introduction of foreign troops. the Eisenhower administration ordered Detachment G to gather more information on the evenrs in Southeast Asia. Five Detachment G pilots and planes were ferried to Cubi Point Naval Air Station in the Philippines to conduct an operation known as POLECAT. During the period 3 to 18 January 1961, these U-2s made seyen flights over Laos and North Vietnam. To search for the reported foreign troops, these missions concentrated on the lines of communications leading into Laos from North Vietnam and China. In addition. the U-2s scanned North Vietnamese airfields for Soviet aircraft to determine the magnitude of the airdrop operation allegedly supporting the Pathet Lao troops. NPIC sent photointerpreters to Clark Air Force Base in the Philippines to obtain an immediate readout of the results of each mission. The photography did not substantiate the Laotian and on 26 January the Laotian Government retracted its of a invasion. Detachment G's U-2s returned ro I

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222 landing at the Scranton-Wilkes-Barre Airport. the pilot reported the incident to Headquarters. The Office of Security immediately contacted the Pennsylvania State Police, who sealed off the wooded area. Agency security officers soon arrived to search for the boxes. They 1 recovered all 43 containers; not one had broken.j Detachment G's only other activity during the summer of I 961 was a solitary overflight of North Vietnam, known as Operation EBONY. In preparation for this mission, a U-2 deployed to Cubi Point on 13 August !96! Two days later it successfully conducted 33 the overflight and subsequently returned to the United States.

New Detachment on Taiwan Long before the Nationalist Chinese became involved in the U-2 program, they were flying covert reconnaissance missions for the CIA. In 1952 the CIA began recruiting Nationalist Chinese crews to replace US personnel from the proprietary firm Civil Air Transport, who had been flying Agency aircraft to drop leaflets. agents, and supplies over the Chinese mainland. This project (BGMARQUE) also provided photographic coverage of the rail line from Shanghai to the border with French Indochina. CIA-sponsored aerial reconnaissance over the mainland increased substantially in 1955 with the establishment of Project STPOLLY, which used Agency aircraft with Nationalist Chinese crews to gather Signals Intelligence (SIGINT) and conduct psychological warfare against the People's Republic of China. At first the SIGINT equipment was installed in World War II-vintage aircraft such as PB-4Ys and B-1 but in 1958 the project received a new aircraft procured covertly by the from Lockheed, the P2V7, with an airborne SrGINT system. STPOLLY added the more advanced Lockheed P3A in 1963. Between 1955 and STPOLLY conducted 399 total of

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supplying the Nationalist Chinese Government with the most advanced reconnaissance aircraft available, the U-2. The CfA opposed a Nationalist Chinese U-2 program because such flights would destroy the existing unclassified cover for the U-2. In discussions with the Air Force, DDCI Cabe ll only consented to having Nationalist pilots trained to fly U-2s so that they would be ready in case they were needed in the futu re: he opposed any Nationali st overflights. The training of the Nmionalist Chinese pilo ts began in March 1959. By the end of the year, there was a grou p of trained pilots ready for operations, and DCI Dulles met with the Joi nt Chiefs of Staff to discuss the program's future . Dulles reaffirmed the Agency's opposition to Nationali st Chi nese U-2 missions. and the Air Force. which had

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224 wanted the Nationalists to be allowed to begin operations, relucmntly agreed to wait until conditions were favorable.,. The situation changed radically in May 1960 after the loss of Powers' U-2 destroyed the existing cover story for U-2 operations. Now there was no longer any reason not to use the Nationalist pilots. In addition, the Agency soon found itself in need of a base of operations in the Far East after Detachment C had to leave Japan. Durin11 discussionswitbN<lti()!laE~tofficials on 6 May 1960, the

raised the possibi}ity<:>f Air Force. Two weeks , informally to propose moved to Taiwan. Thi~\VaS f()[lowed three .o.ÂŁfar. _L\n~" !~"--

President Eisenhower NaflonaTist TninaTpro~ posal on 18 June. Several weeks later, Richard Bissell suggested that two U-2s be turned over to the Nationalists for use in overflying the mainland. The project would be conducted along the lines of Project 35 STPOLLY. On 26 August I960, President Eisenhower and the State Department approved Bissell's proposal to turn U-2s over to the Nationalist Chinese rather than move an American detachment to Taiwan. Using Nationalist pilots for overflights had the advantage of providing complete deniability for the United States, even if an aircraft was lost over hostile territory. The U~2s would belong to Nationalist China and would have Nationalist pilots, and there was no overt US involvement with the In the would maintain United

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Taiwan on 14 December. Within the Agency the Nationalist pilots and aircraft were known as Detachmenr H, and they were based at the Nationalist Chinese Air Force Base at T'ao-yuan. One of the U-2s was painted with the Nationalist Chinese insignia, and the other was left unmarked so that it could also be used by Agency pilots as needed. The planes were maintained by Lockheed mechanics under contract to the CIA. The Agency attempted ro mainrain at least two U-2s in Detachment H. so lost or damaged aircraft were replaced from the 路Agency' s inventory. During 1961, Detachment H conducted training missions with both U-2s, and one Nationalist pilot was killed in a crash on 19 March. Although the detachment was ready to begin operations. the new Kennedy administration was not yet ready to authorize o ve rflights of the PRC. In a 3 March 1961 meeting between State Department and CIA officials to discuss the possibility of such overflights, Under Secretary of State Chester Bow les noted that " the President was feeling his way on the international scene, and time was needed to evaluate the new Sino-Soviet posture with relation to the United States." Jr In July 196 1 the USIB considered the possibility of co nducting overflights of the PRC . but the State Department remained opposed. By the fall of 1961, interest in overflights of the PRC was growing because of indications that the Chinese were making progress in nuclear energy and missile developme nt. As a result, on 4 October

" James A. Cunningham, Jr., Assistant Chief. DPD-DDIP, Memorandum for the Record. '"TACKLE STPOLLY Briefing for State Department Officials," 6 March l96i. !C Staff. COM!REX records, job 33-B-!19A. bol( 1. "IDEALIST/TACKLE. t96!" (S J.

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Detachment H U-2 at T'ao-yuan A irfield

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226 1961 PFJAB recommended the initiation of a limited number of U-2 photographic missions over the Chinese mainland. The President approved the board's recommendation. Because the US~Nationalist Chinese overflight program (Project TACKLE) was a joint effort, both countries participated in the approval process and also shared in the results of the missions. The USIB COMOR established the requirements for Detachment H's overflights, which had to be approved by the NSC's Special Group (5412 Committee) and the President The Nationalist Chinese Government also approved all missions flown by its pilots. Under the terms of an agreemem reached with the Nationalist Chinese Government, film from the overflights of the mainland would be processed in the United States. with a duplicate positive copy returned to Nationalist China within 10 days. NPIC was responsible for the initial reporting on these missions." Project TACKLE overflights began early in 1962. Following a 5 January Special Group decision to approve three missions, a Detachment H U-2 with a Nationalist Chinese pilot flew its first mission over the PRC's missile-testing range at Shuangchengzi on 12 January 1962. Unfortunately, because of faulty navigation or faulty maps. the aircraft was poorly positioned and obtained only oblique, rather than vertical, photography of the range. En route to and from Shuangchengzi, the U-2 overflew Fukien and Chekiang Provinces looking for suspected deployed but none could be found in 19 the mission photography. The second TACKLE mission took on 23 February nuclear weapons establishment when a U-2 overflew !he mission revealed that the installa-

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Initial Overflights of China, January - March 1962 ..·'!.·

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Lan-chou, PRC, 23 February 1962

for air order of battle. In addition to the primary targets already described. the initial series of Project TACKLE missions obtained photography of the submarine construction facilities at Shanghai and Wu-ch'ang. which showed a low level of activity. Other photographs revealed tremendous expansion of the industrial complexes at Nanking and Ch'ang-sha and the presence of a previously unknown industrial area ar Chiang-yu:"' Encouraged by the success of the first TACKLE m1sstons. COM OR recommended in May I 962 that Detachment H cover as many as possible of the highest priority industrial and airfield targets in northeast China and the missile test ranges in north China. COMO R noted that. with the exception of the areas around Peiping and the Shuangchengzi missile test range, the chances of a U-2 being downed were low. The US lB concurred with COMOR's recommendations. and Detachment H therefore conducted three mo re overfl ights of the PRC during the month of June."

"' OSA Hiswry. chap. 17. p. 45 (TS Codeword); :VCis>ion folders G RCI02

( 2J February

1962!. GRCI Q.+ ( 13 Marc h 1962). and GRC!06 (:!6 March 1962). OSA records. job 67-B-972. box 19 (TS Codcwon.J).

" Lay... USIB Hi>Wry ... vol. 2. pp. 385-31!6 ITS Codeword).

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Before the month was over, however, another confrontation between Nationalist China and the PRC over the Formosa Strait erupted. The Nationalist Government reported a massive buildup of PRC troops and aircraft in Fukien Province opposite the Nationalist-held m~>mrâ&#x20AC;˘v and Ma-tsu Islands. Secretary of Defense Robert McNamara immediately ordered U-2 coverage of the Strait area to detem1ine the extent of the PRC buildup. In response. Detachmem H flew six missions over the Strait between 25 June and 28 July 1962. To speed up the readout of this photography, the films were processed at the Asian Photographic Interpretation Center (ASPIC) at Yokota, Japan, a joint military-CIA endeavor. The U-2 coverage ended in !ate July when it became apparent that the PRC did nor intend to mount an invasion of the offshore islands. The pace of Detachment H m1sswns slowed considerably in August !962; the sole Project TACKLE overnight covered Peiping and Manchuria. The following momh the detachment moumed two missions. one over south China on the eighth and the second over Kiangsu Province on the nimh. Unfortunately. mechanical difficulties led to the loss of the latter aircraft near Lu-shan. A flameout forced the U-:2 down to an altitude where PRC interceptors were able to hit the U-2 with an air-to-air rocket The Nationalist Chinese pilot parachuted and was captured. At this point. President Kennedy ordered a standdown of overflights of the PRC."' Following the capture of the Nationalist Chinese U-2 pilot, the People's Republic of China accused the United States of masterminding the but the State Department denied any involvement Nationalist China then revealed that the United States had a 13

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Detachment H resumed of mainland China in December 1962, but its missions now concentrated on the southern portion where there were fewer radars and SAM sites. During December 1962 and January 1963. the detachment conducted two successful of Sichuan, but a mission over south China had to be aborted prematurely. The results of Detachment H's continuing coverage of the People's Republic of China remained of considerable interest to the United Stares. On 17 December 1962. the Special Group approved plans for fiscal year 1963/64 that included require· ments for photo coverage of mainland China and for maintaining at least two operational U-2 aircraft in Detachment H.""

Use of Detachment H Aircraft by US Pilots Detachment H's importance did not lie solely in the missions carried out by its Nationalist Chinese pilots against targets in mainland China; the detachment also provided aircraft for use by American pifoes flying missions in other parts of Asia. Indochina was an area of particular interest as American involvement there began growing during the early 1960s. Beginning in February 1962, Detachment G pilots went to T' ao-yuan to use the unmarked Project TACKLE U-2 for overflights of North Vietnam. During the first half of 1962, Detachment G pilots made seven overflights of North Vietnam from the Tao Yuan base. Thereafter, Detachment G pilocs could use their own aircraft because the unit began staging teams and aircraft from Edwards AFB to Ta Khli AFB in Thailand. Between 1962 and 1964, Agency U-2s a total of phoover North and South Vietnam. By April from ~rrl~r.. a•r connaissance to tactical became more of the weakness of the South Vietnamese central the that Dinh "''"'"'"'''" u:u:.~,•v••:.

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within 30 miles of South Vietnam, all of Laos south of Paksane, and all of North Vietnam within 30 miles of South Vietnam or the coast The remaining portions of Indochina remained the responsibility of the Agency's U-2s. Then in August 1964, following the Gulf of Tonkin the Air Force assumed responsibility for all of Indochina.â&#x20AC;˘ ,

U-2s in India Jn October 1962, the People's Republic of China launched a series of massive surprise attacks against India's frontier forces in the western provinces of Jammu and Kashmir and in the North-East Frontier Agency (NEE.:\). The Chinese overran all Indian fortifications north of the Brahmaputra Valley before halting their operations. The Indian Government appealed to the United States for military aid. In the negotiations that followed, it became apparent that Indian claims concerning the extent of the Chinese incursions could not be reliably evaluated. US Ambassador John Kenneth Galbraith, therefore, suggested w the Indian Government that US aerial recon.naissance of the disputed areas would provide both governments with a more accurate picture of the Communist Chinese incursions. On II November 1962, Prime Minister Jawaharlal Nehru consented to the proposed operation and gave the United States permission to refuel the reconnaissance aircraft (U-2s) in Indian airspace:~ In late November, Detachment G deployed to Ta Khli, Thailand, to carry out the overflights of the Sino-Indian border area. Since the U-2s were not authorized to overfly Burma, they had to reach the tararea via the Bay of Bengal and eastern fndia and, therefore, required midair

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232 Detachment G U-2s made four more overflights of the Sino-Indian border areas in January 1963, which led to a PRC protest to India. Photography from these missions was used in January and again in March 1963 to brief Prime Minister Nehru, who then informed the Indian Parliament about Communist Chinese troop movements along the border. Although Nehru did not reveal the source of his intelligence, a UPI wire story surmised that the information had been obtained by U-2s. The United States had provided photographic coverage of the border area to India for two reasons. First of all, US policymakers wanted a clear picture of the area under dispute. In addition, the intelligence community wanted to establish a precedent for overflights from India, which could lead to obtaining a permanent staging base in India for electronic reconnaissance missions against the Soviet ABM site at Saryshagan and photographic missions against those portions of western China that were out of range of Detachment H. ln April 1963, Ambassador Galbraith and the Chief of Station at New Delhi made the first official request to India for a base. The following month, President Kennedy agreed to DCI McCone's suggestion to raise the question of a U-2 base in India when he met with India's President Savepalli Radhakrishnan on 3 June. This meeting resulted in an Indian offer of an abandoned World War l[ base at Charbatia. south of Calcutta."" The Charbatia base was in poor condition and needed considerable renovation it could be used for U-2 Work on the base by the Indians took much than so Detachment G continued to use Ta Khli when it four sorties Tibet from 29 10 November 1963~ In addirion of

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233 Charbatia was still not in early 1964, so on 31 March 1964 Detachment G staged another mission from Ta Khli The first mission out of Charbatia did not take place until 24 May 1964. Three later Prime Minister Nehru died, and further operations were postThe and aircraft left but other remained in place to save staging costs. In December 1964, when Sino-Indian tensions increased along the border, Detachment G returned to Charbaria and conducted three highly successful missions, satisfying all of COMOR's requirements for the Sino-Indian border region. By this time, however, Ta Khli had become the main base for Detachment G's Asian operations, and Charbatia served merely as a forward staging base. Charbatia was closed out in July 1967.

Increasing Responsibilities, Inadequate Resources in Asia The main focus of Agency U-2 activity in Asia remained the U-2s of Detachment H on Taiwan. In March and April 1963, the USIB met to consider COMOR proposals for aerial reconnaissance of Laos, North Vietnam, North Korea, and the People's Republic of China. All of COMOR's intelligence requirements could best be met by the U-2 because heavy cloud cover made it difficult to obtain satellite photography of the region. At the 28 May 1963 meeting of the Special Group, DCÂŁ McCone requested authorization for a series of overflights to meet these requirements and stressed the need for additional intelligence on the atomic energy facilities of the PRC. The Special Group then established a "bank" of four authorizations for overflights of the PRC subject to month! y review the Group.)'

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234 The increased level of U-2 activity in the Far East during the spring of 1963 exposed a serious weakness in Projects IDEALIST and TACKLE, a shortage of aircraft The Agency only had seven flyable U-2s when the TACKLE overflights of the PRC began in January I and one of these aircraft had already been lost during an overflight in September 1962. To deal with this shortage, DCI McCone asked Defense Secretary McNamara and the Joint Chiefs of Staff on I 0 June 1963 to transfer two U-2s from the Air Force to the CIA. The Defense Department quickly approved this request Before the two Air Force aircraft were placed in service, however, the Agency had them upgraded with J75/P-13A engines and various electronic de50 vices, a process that took more than four months. As overflights over the PRC increased, so did concern about the growing number of Chinese surface-to-air missile sites. The Office of Special Activities, therefore, got permission from the Defense Department to equip Project TACKLE aircraft with System-XIl SAM-warning units. These devices alerted the pilot that his aircraft was being tracked by the FAN SONG acquisition radar, part of the SA-2's electronic targeting system. The System-XU units also recorded each radar-tracking sequence. Analysis of these recordings revealed changes in the FAN SONG radar's characteristics, information that proved useful in designing electronic-countermeasure (ECM) de51 vices for US aircraft operating over Vietnam during the late 1960s. Despite the addition of System-XU in the spring of 1963, the Nationalist Chinese-piloted U-2s of Project TACKLE had far fewer ECM devices than other U-2s. Project IDEALIST aircraft fJ"A'"'"",.,"" a complete suite of ECM gear in addition to the previously mentioned this ECM was a dethat told had been launched

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235 The danger posed by the growing number of SA-2 sites in the PRC was clearly demonstrated on I November 1963, when a second Project TACKLE U-2 was lost near the Kiangsi-Chekiang border on its way back from photographing the PRC's Shuangchengzi missile rest range. As was the case after the first operational loss over China in September 196 L President Kennedy ordered a standdown of overflights of mainland China. This standdown lasted almost five months. As a result of this second loss over the PRC. the Office of Special Activities began installing a new 30-channel telemetry system aboard Detachment H U-2s to monitor various aircraft functions. Known as BIRDWATCHER, this unit periodically broadcast a burst of data to the airbase that launched the U-2. This data burst contained a status report on all the major systems aboard the plane, such as airspeed, altitude, exhaust temperature, fuel supply, film supply, and oxygen supply. BIRDWATCHER provided project managers with a benchmark of aircraft performance that could be used to determine if a lost plane had been shot down at altitude or had suffered mechanical failure. 54 BIRDWATCHER's first operational use came on 16 March 1964, when overflights resumed with a mission over southern China. The PRC was now a high-priority target for the U-2 because more data were needed to prepare National Intelligence Estimates due in the autumn. Of particular concern was the PRC's nuclear program. Despite the high priority of its missions, Detachment H路s resources remained scarce. It was short of both pilots and planes and never had more than three U路2s or six qualified Nationalist Chinese at any one time. By the of 1964, crashes and the two the

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were normal when the pilot made this report. Project managers presumed thar the U-2 was downed by a direct hit or near miss by an SA-2 missile. President Johnson ordered a standdown of overt1ighrs of the PRC. This standdown was welcomed by the Nationalist Chinese Government, which told the Taiwan Chief of Station that it wanted "to let some time go by" before more overtlights were scheduled. The Nationalists pointed out that the only remaining qualified U-2 pilot had "disqualified" himself because of nervous tension. No new pilots could be qualified for U-2 flights before mid-August. The Nationalists then demanded faster and higher flying aircraft as well as better antimissile equipment for the planes. This request led some CIA personnel to suspect that Nationalist China had learned about Project OXCART, the successor to the U-2 that was still undergoing testing. Despite the Nationalists' request for beuer ECM equipment, the Defense Department remained reluctant to authorize the use of the System-XIII false-angle radar jammer on Project TACKLE U-2s. The Defense Department feared that the loss of this device with its highly advanced traveling-wave tube (TWT) would enable Communist Bloc technicians to devise countermeasures and also learn how to produce the highly efficient TWT themselves. As an incentive for the Nationalist Chinese to agree to more overflights. the CfA to permit them to process the U-2 film on Taiwan and to use their own photoimerpreters to exploir the film along with US

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237 Advanced ECM Demand for overhead photography of the PRC continued to grow, spurred in part by the results of earlier U-2 missions that revealed the presence of Soviet-made MiG-2ls in the PRC. In addition, there were indications that Communist China might be producing its own SAMs. Furthermore, satellite photography revealed that preparations for the first Chinese nuclear test were almost complete at the Lop Nor test site. The need for photographs of the Lop Nor site was considered so urgent that the Defense Department finally relented and permitted the System-XIII false-angle device jammer to be installed in Project TACKLE aircraft, with the proviso that it not be turned on until after the pilot had been alerted by System-XI! that he was being tracked by FAt'l SONG radars. Photographing Lop Nor, however, was not a simtask. Located more than 2,000 miles west-northwest of Taiwan, Lop Nor lay beyond the round trip range of T'ao-yuan-based U-2s and in-flight refueling was not possible. Lop Nor was closer to Ta Khli, Thailand, only I ,650 miles northwest of that base, and much closer to Charbatia, India, which lay only 1,200 miles south of the testing site. After refusing DCI McCone's suggestion to stage a Lop Nor overflight from Charbatia using a CIA civilian pilot, President Johnson approved a proposal to send a Project TACKLE unit to Ta Khli for the mission to Lop Nor. A Detachment H U-2 with a Nationalist Chinese pilot deployed to Ta Khli in mid-October to prepare for the overflight. Before mission preparations could be the Chinese detonated their first nuclear weapon on 16 and the mission was canceled.

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force installations ... would about two man-years work, backed up by a expansion of photointerpretation ef-

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another The of Chinese officials reluctant to resume insisted that their U路2 be

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240 With their demands met. Nationalist Chinese officials consented to overtlights by Detachment H. and operations resumed in February 1965 with three missions over the mainland. By this time US interest in the People 路s Republic of China was very high because of the PRC's development of nuclear weapons. The Special Group, therefore, approved an extensive reconnaissance program directed against the PRC. By the end of the year. Detachment H had flown 30 missions, the highest annual total during the entire program. The level of activity declined during 1966, with only 10 missions flown over the mainland. Detachment H also suffered the loss of two more aircraft and pilots in crashes during training missions in 1966. [n the fall of that year, joint US-Nationalist Chinese relations in the field of overhead reconnaissance were further strained by th<: unilareral US decision to kill the longstanding program of low-altitude nighttime overflights of the mainland (STPOLLY}."

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The entire u~2 overflight program was temporarily halted in early November I 967 after an Air Force U-2 in Vietnam was discovered to have cracks in its All Air Force and CIA U-2s were ordered back to Lockheed for ultrasonic inspection of the wings and to check on metal Upon completion of this other stress both the Air Force and the resumed their over-

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243 week later the Viet and North Vietnamese launched their Tet offensive in South Vietnam. The 303 Committee (the new name for the Group after 1964) decided on I February 1968 to suspend a group of overflights scheduled for February and called for misthis of tension." The committee approved one additional overflight of southern China, which was flown by Detachment H on !6 March 1968, and two overflights of Cambodia, carried out on 27 March and 3 April 1968 by Detachment G in its first operations since early !966. These three missions turned out to be rhe lase overflights by U-2s in the Far East By this time U-2 flights over the PRC had become so dangerous that the State Department opposed further overflights, and on I 0 April 1968 the Committee decided not to approve any mission that would fly closer than 20 miles from the coast of China. One reason why Detachment H's overflights were stopped was the steady increase in the PRC's ability to track and engage U-2s, as evidenced by its success in downing five U-2s. By 1968 PRC radars along the coast opposite Taiwan were keeping a close watch on U-2 activity from the T'ao-yuan base and actively tracked U-2s as soon as they became airborne. The U-2s then had to face a growing PRC air defense system that not only consisted of SA-2 missiles but also the fast and high-flying MiG-21. The PRC's MiG-21 pi!OÂŁs had become adept at the power-zoom technique and were threatening almost every 5 U-2 mission. The risks to U-2s now seemed roo great' The decision to end Asian overflights was also rooted in the Johnson administration's in its whole approach to the war in lndochina in the of On 31 March 1968, the President limited the

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Overtlight.;

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Peripheral Missions

Detachment H

Detachment H did not cc:ase its activities following the:: termination of overflights of mainland China. Its next U-2 mission took place on 18 May 1968. This was an electronic intelligence mission that, in accordance with the new guidelines, never came: closer than 20 miles to the Chinese coast. All future Detachment H missions against the PRC also conformed with this restriction but were still the target of interception attempts by PRC MiG-21 s or hastily erected SAM sites on offshore islands. The use of peripheral missions prevented any further losses. although one aircraft crashed into the sea from unknown causes shortly after taking off to start a mission on 5 January I969. Another pilot was killed on November 1970 in a crash dur. . a routine miSSIOn. (;(,

increased the table on page 245.

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Project TACKLE Peripheral Missions. 1969路197-J

Fiscal Year

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19 31

Once the United States began seeki ng a rapprochement with the People's Repub lic of C hi na. Detachment H U- 2s came under more and more restrictions. Soon after the impendi ng visit of President Richard M . Nixon to the PRC was announced. U-2 mi ssio ns were ordered to stay even fa rther away from the mainland: 25 nautical mi les instead of the previous 20. During the months of February and

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Display of downed detachment H U路2s in Peiping

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Nationalist Chinese U-2R

March 1972. when the Pres ident 's visit took place, Detachment H 7 ceased all operational missions ." fn March 1973 , the TACKLE ag reement with the Nationalist Chinese was renegotiated. Although no end date was set, the agree men拢 contained a termination clause thar would become effective three months after notification by e ither party. This c la use pro vided more fle xibility to the United States. which could now end the Nationali st C hinese U-2 program whenever US foreign policy considerations made such a step desirable.

Operation SCOPE SHIELD Over North Vietnam In addition to the Project TACKLE peripheral missions against the PRC. Detachment H (w ith Agency rather than Nationalist Chinese pilots) flew a series of missions known as Operarion SCOPE SH lEL D to gather inte lligence on act ivities in North Vietnam . The Indochina area had become the responsiblity of the Air Force in 1964. bu t, under the terms of the cease- fire ag reemen t negotiated with North

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247 Vietnam in January 1973, US military in the area were forbidden. The Nixon administration. therefore, tasked the CIA with moniNorth Vietnam 路s compliance with the cease-fire accords. to Taiwan under the cover The several of Lockheed employees working on a government contract to check weather conditions. Their highly sensitive missions had to remain at least 15 nautical miles away from the North Vietnamese coast, and they initially flew at low altitude in a deceptive direction in order to avoid PRC radars. These constraints made the missions difficult because at low altitude the U-2 consumed more fuel and encountered more turbulence and the pilots' pressure suits tended to overheat

The first mission on 30 March 1973 was only marginally successful because of cloud cover and haze, which prevented it from photographing most of its targets. A second mission on the following day had somewhat better luck with the weather. but problems with the film processing reduced the mission's coverage. Afterward, the monsoon season prevented any further missions until 21 July 1973. This 路mission obtained usable photography of SAM sites and North Vietnamese supply operations, although the resolution was not as high as it should have been because the H camera !ens had not been properly focused. The last SCOPE SHIELD mission. on 6 January 1974. finally succeeded in obtaining high-quality photography. The mission provided complete coverage of shipping in Haiphong Harbor, SAM and North Vietnamese naval order of battle.""

IMPROVEMENTS IN U-2 TECHNOLOGY Modification of U-2s for Aircraft

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U -2 on the USS Kitty Hawk, 5 August 1963

involved in seeking permi ss ion to base U-2s in other nations . Kell y John so n bega n working o n changes to the aircraft. and Office of Special Activities Deputy Director James A. Cunningham, Jr.. a former Marine Corps aviator. asked the Navy for assistance . The first tes t o f the U-2's capability for carri er operations took place in Au gust 1963 from the USS Kitty Hawk ope rating in the Pacific Ocean off San Diego. Califo rn ia. A U-2C. which had been loaded aboard the carrier at North Island Naval Base. took off from the flig ht deck with a fu ll load of fu el a nd was airborne within 32 1 feet. No ass istance fro m catapults was necessary. Although the takeoff was very successful. the attempted landing was nor. The aircraft bounced, hit hard on o ne v.. i ng tip . and then just barely managed to beco me airborne again before reac hi ng the end o f the deck. Kelly Johnson realized that the a irframe would have ro be altered in o rde r to make carrie r landings possib le. These al te rations involved strengthening the landing gear. install ing an arresti ng hook ar the rear of the fuse lage, and fitting "spo ilers" on the wings to caned the aerodynamic lift once the a irc raft was over the flig ht deck. Aircraft thus modified were designared U 路2G. While several aircraft

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underwent these modifications. Detachment G pilots began undergoing traini ng in landing on aircraft carriers. The first successful carrier landing took place on 2 Marc h l 964.w

Use of Ca rrier-Based U-2 To Film a French Nuclear Test Site With in a few months after the completion of carrier testing. one o f the carrier-modified U-2s conducted an operation in the Pacific. Its mission was to gather information on the activities of an ally In

路u- 2 .-\ ircr:1ft C.JJTi<:r Operations: Project ' WH ALE TALE Ope r:Hton FIS H fl.\ WK ...

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250 December 1963. France had announced its intemion w detonate a hydrogen de vice over Mururoa Atoll in the Tuamotu Archipelago area of Frenc h Polynesia but had given no specific date for the event. The Committee on Overhead Reconnai ssance had been following French nuclear de velopme nts sin ce September 1963 , when it had apprised the US£B of the need for overflights of this South Pacific area . At that time the usm decided again s t recommending such overtlights be cau se of State Department concern about potential political difticul tit!s with France in the event the mission was discovt!red . Following reports of a buildup of French troo ps and technical personnel in neighboring Tahiti, the Special Group on 24 April 1964 approved a mission to overfly the atoll to check for activity. This required photography with a resolution better than the 3 to 5 feet possible with the standard B- model camera that had been in use since October 1956. Work on a very-high-resolution camera had begun in early 1963, when the Agency contracted with the [tek Corporation to modify for placement in the U-2 a camera that had been developed for the satellite program . Known as the Delta-H. or the 112A, this device could photograph a 28-kilometer swath with 26" convergent stereoscopic lenses, resulting in a 70. lateral coverage and a ground resolution of 10 inches. This camera was installed in a Detachment H U-2 and used on two missions conducted over Indochina in late December 1963. Resolution was not as high as had been expected. and the unit was returned to [tek for modifications. By early 1964 , the 112A had been reworked and was now known as the I I 28. !n tests it had proved capable of providing photography with resolution in the I0- to 12-inc h range . De tach me nt G conducted Ope ratio n FISH HAWK in May 1964 by send ing two pi lo ts, an NP!C phorointerpre te r. and a U-2G equipped wi th the Itek 1128 camera to make the firs t operational U-2 fl ights from an aircraft carrier. On 19 May the U-2 rook o ff from the USS Ranger and overflew the French atomic test area. As soon as the aircraft returned to the Ranger, the film was developed in the carrier's photo lab, and the NPIC phoroimerpreter then read out the film to see if the photography met the requiremems fo r resolution and qual ity. A second U-2 flight carried out a similar mission on 22 May. The photography prov ided all the deta il needed to identify the preparations for the nuclear test th at occ urred later that year."'

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251 There was never another U-2 mission from an aircraft carrier. Although the idea of a t1oating airbase to avoid political sensitivity proved the cost did not Aircraft carriers are enormously to operate and require an entire flotilla of vessels to and service them. The movement of numbers of ships is difficult to conceal and cannot be hastily accomplished, while the deployment of a U-2 to a remote airfield can take overnight

A New Version of the U-2 the summer of 1966, the number of tlyable U-2:> had dwindled to six~two at Detachment H in Taiwan and four at Detachment G in California-with three more at Lockheed undergoing The Agency had originally ordered 20 U-2s in 1954-55 (the Air Force had purchased another 3 I of these planes), and Kelly Johnson's crew at the Skunk Works had managed to assemble four additional craft for the Agency from lt:ftover spare parts and usable sections of crashed aircraft. This brought the total number of U-2s acquired by the Agency to 24, for an average cost of S812.500 each. At this point, the DCI and the Secretary of Defense on I August ! 966 decided to place an order with Lockheed for eight more aircraft to be used in the Agency and Air Force U-2 programs-a completely new version of the aircraft. Kelly Johnson had been working on ways of the U-2 since !965 because he to improve the was concerned that all the modifications and additions lO the aircraft that it had lost almost half of irs altitude.

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The U-2R used the upgraded Pratt & Whitney J75/P-1 3 B engine and was able to tly higha-in excess of 74.000 feet-and fasterMach 0.72 (41 0 knots). which is 12 knots faster than the U-2C. When flying at the higher altitude. however. the U-2R ·s range was less than the U-2Cs . The restart ca pability of the P-IJB engine was significantly better than the P-13A power plant As a result. the U-2R could be restarted at 54.000 feet. which was I0 .000 feet higher than the:: U-2C. Francis Gary Powers was one:: of the:: Lockheed test pilots who checked out this new aircraft when it fi rst took to the air on 28 August 1967. The:: last of the U-2Rs was delivered on II December 1968 . The increased performance o f the U-2R did not come c heaply. At '57. 1 million per aircraft. the new models cost almost 10 times as much as the original U- 2s. Much of the increased cost was due to inA ation, but some was the result of tec hno log ical advances. The ini tial order for ei ght of the new ve rsion o f the U-2 was fol lowed o n 23 Novem be r 1966 by an o rder from the DC! and the Secretary of Defense for four more . This bro ught the total number of U-2Rs purchased by the C IA and the Air Force to 11 . ~ 1

ln add ition to a new aircraft. the U-2 program rece ived a new camera. Agency managers felt that. because the B camera was now I 0 years old. the U-2R needed a camera th at incorporated the many im portant advances that had occurred 10 recent years . The ll2B- the modified version of the sate llite program 's stereo camera that had been used in the U-2G-had not proved totally successful. Despi te its stereo capabili ty. th is camera's shorter foca l length could not provide

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253 needed to obtain the highly technical data desired As a result, the Office of Special Activities asked the Hycon Manufacturing Company of Pasadena, California, to adapt its successful high-resolution 48-inch 9- by 9-inch format camera developed for the OXCART aircraft for use in the U-2R. This camera was actually a very advanced version of the original B camera with a new !ens designed by James Baker. The new camera was designed to resolve objects smaller than 4 inches. Hycon work on the HR-333 camera in 1966. Unlike the OXCART camera, the new unit was to use the split 18- by 18-inch format of the B camera, so the lens had to be redesigned. James Baker's contribution to this effort was a 48-inch f/5.6 system that provided remarkably sharp imagery. Hycon completed the camera in time for it to be installed in the first U-2Rs delivered to the Agency in 11 1968: it is known as the H camera.

Replacement of the Original U-2s With U-2Rs As the new U-2Rs began coming off the production line at Lockheed in.the autumn of 1968. CIA and the Department of Defense had to decide who would get rhe new aircraft. At a meeting on 13 November. DCI Richard Helms and Secretary of Defense Robert McNamara agreed that the Air Force and the Agency would each get six U-2Rs. The six older U-2s remaining from the original 1954-55 production were to be kept in flyable condition and be used as replacements if newer models were lost of the new model of Despite the was over. The U-2R the U-2, the era of would have six years of useful service with the

THE U-2

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254 missions the Republic these missions did not PRC territory. Increasingly. missions that did not involve intelligence collection requirements.

Beginning in 1964. the Agency conducted a program known as RED DOT for the Department of Defense. RED DOT involved the development and of various films. emulsions. and for use in manned and unmanned high-al!itude reconnaissance systems. From 1968 until 1974. Detachment G U-:?s photographed areas within the United States that were analagous to portions of the Soviet Union in order ro test films and techniques for spotting certain targets. This analogous filming was particularly valuable in connection with agricultural areas and nuclear test sites. Some U-2 missions supported agencies outside the intelligence community. In 1968 and 1969, Detachment G U-:?s flew high-altitude photographic missions in conjunction with the Apollo VII and IX spaceflights in response to a NASA requesL These flights provided photography of the western United States for comparison with the photography taken by the Apollo crews. The Department of the Interior also requested U-2 support in early 1969 to help determine the extent of damage caused by a kak in an offshore oil well in California's Santa Barbara ChanneL After preliminary assessment of the film at NP!C, the mission photography was to the US for further

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Subsequent missions in support of Federal agencies included COMPASS TRIP in fiscal year 1973, when Agency U-2s photographed poppy fields that had been pl anted by the Bureau of Narcotics in order to provide a standard for comparison with satellite imagery. In the fo llowing year, U-2s assisted the Corps of Engineers in conducting a geological survey.

Earthquake damage, San Fernando Valley, 197 1

Overseas Deployment Exercises and Missions With the exception of the Chinese Nationalist-piloted U- 2s of Detachment H. all of the Agency 's U-2 assets were concemrated in Detachment G in California. To test che ability of Detachment G to respond to a crisis in Europe or the Middle East. the Agency staged an overseas deployment exercise known as COPE SAINT each year (un less there was an actual operational deployment, as was the case in 1970. 1973, and 1974). The fi rst o f these exerc ises, SCOPE SAlNT- f. cook place on 9 Ocrober ! 968, when Detach ment G deployed U- 2G to the [~==~-====~=- --------········

. .... . .. iThe U-2 conducted several trai n i~g -fll gh.is.and ifien.reii.irned· w California. SCOPE SAil 'T -fl followed in April 1969 and de monstrated the feasibility of employing a C-141 aircraft to accompany a

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U<? in to C 141 carried support to the In October third exen::.tses rook nlacc at a different

:-.Jo overseas deployment exercise was necessary in 1970, for elements of Detachment G actually deployed overseas to provide photography of the Middle East. At the time, President Nixon's National Security Adviser. Henry A. was mediating between the Arabs and Israelis in order to obtain a cease-tire along the Sua CanaL where a virtual undeclared war was taking place. Once agreement was reached in Kissinger promised both sides that tht! United States would monitor the agreed upon 32-mile pullback from the waterway. Originally, Kissinger intended for photosatellites to do the monitoring. One ~atel!ite was tasked to photograph the Suez Canal area on 10 August, but the quality of its imagery lacked the detail needed to discover such small targets as gun emplacements and In early August, Kissinger asked the Air Force to provide U-2s to overtly tht! Canal. but the Air Force demurred, saying it would take

several weeks to move a U-2 detachment from Del Rio, Texas, ro the Middle East. At this point. DCI Helms told an NSC meeting that the Agency':; Dt!tachmeotGar Base could deploy aircraft to and begin filming the Suel areawithin the week. and it did. fn fact. the first U-2 arrived in poly 71 hours after recei notification to Between U-2s Rew 29 missions over 9 August and 10 November 1970. the cease-fire zone as part of EVEN STEVEN. Most used the B camera. bur I 1 were tion H camera. The EVEN STEVE:"/

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257 lead to the overseas deployment of Detachment G U-2s in 1974, when the CIA was tasked to monitor the Israeli-Egyptian and later the Israe!i-Syrian disengagement areas. On I April I 974, a Detachment G U-2 with appropriate support elements arrived at Akrotiri. Cyprus, to conduct Operation OLIVE HARVEST Between 12 May and 28 July, the detachment conducted six overflights of the disengagement areas. During these missions the electronic warning systems of the U-2 registered numerous radar lockons, but no surface-to-air missiles were fired. On 1 August 1974, responsibility for the OLIVE HARVEST missions as well as the aircraft itself came into the hands of the Air Force as part of the transfer of the entire Agency U-2 program at that time.

The Phaseout of the Office of Special Activities The U-2 program had been under review since the autumn of 1969 to determine if it should be continued along with the larger Air Force U-2 program. In December 1969, President Nixon decided to keep the Agency's program in existence through 1971 and asked for a formal review by the 40 Committee (the new name for the 303 Committee/Special Group). In August 1970, the committee recommended continuing the program through fiscal year 1972. On 12 August 1972, the 40 Committee again favored continuation of the CIA U-2 program. This recommendation was motivated primarily by a desire not to alienate the Nationalist Chinese Government by eliminating Project TACKLE. [n June 1973, however, DCI James R. Schlesinger informed the 40 Committee that this project could be terminated without major difficulties with the Nationalist On 30 August 1973, the 40 Committee approved the CIA's to terminate the program effective I 1974. The Air Force would the

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The U-2's Intended Successor: Project OXCART, 1956-1968

Before the U-2 became operational in June 1956, CIA project officials had estimated that its life expectancy for flying safely over the Soviet Union wou ld be between 18 months and two years . After overflights began and the Soviets demonstrated the capability of tracking and attem pting to intercept the U-2. this estimate seemed too optimistic. By August 1956, Richard Bissell was so concerned 路a5out the U-2's vulnerability that he despaired of its ability co avoid destruction for six months, let alone two years. To extend the U-2's useful operational life. project officials first attempted to reduce the aircraft's vulne rability to detection by Soviet radars. Project RAINBOW's efforts to mask the radar image of the U-2 not only proved ineffective, but actually made the aircraft more vulnerable by adding extra weight that reduced its maximum altitude. Because Soviet radar operators continued to find and track U-2s equ ipped with an tiradar sys tems, the C IA canceled Project RAINBOW in May 1958. Long before the failure of Project RAINBOW, Richard Bissell and his Air Force assistant. Col. Jack A. Gibbs, had begun to look for a more rad ical solution to the proble m of Soviet radar detection-an entirely new aircraft. [n the late summer of 1956, the two officials vis ited a number of airframe contractors in a search for new ideas. Among the more unusual was Northrop Aviation 's proposal for a giganric airc raft with a very-high-t ifr wing. Because it would not be made of meral, the wing would require a type of bridge truss on its upper side to give it rigidity. The proposed aircraft would achieve

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260 altitudes of 80,000 to 90,000 fee t but only at subso nic speeds . just 1 enough to keep it airbome. The slow-flying Northrop design d id not solve the problem of radar detection, and in 1957 the emphasis switched to supersonic designs. In August 1957. the Scientific Engineering Institute (SE(). a CIA proprietary firm that had been working on ways to reduce the U-2 's vulnerability to radar, began to investigate the possibility of designing an aircraft with a very small radar cross section. SEI soon discovered that supersonic speed greacly reduced the chances of de2 tection by radar. From this point on. the CIA's attention focused increasingly on the possibility of building an aircraft that could fly at both extremely high speeds and high altitudes while incorporating the best ideas in radar-absorbing or radar-deflecting techniques.

THE EVALUATION OF DESIGNS FOR A SUCCESSOR TO THE U-2 By the autumn of 1957, Bissell and Gibbs had collected so many ideas for a successor to the U-2 that Bissell asked DC! Dulles for permission to establish an advisory committee to assist in the selection process. Bissell also felt that the support of a committee of prominent scientists and engineers would prove useful when it came time to ask for funding for such an expensive project. Edwin Land became the chairman of the new committee, which included some of the scientists and engineers who had served on previous advisory bodies for overhead reconnaissance: Edward Purcell, Allen F. Donovan, H. Guyford Stever, and Eugene P. Kiefer. The Air Force's chief scientist. Courtland D. Perkins, was also a member. The committee first met in November !957 and held six more meetings between July 1958 and the !ate summer of 1959. The meetings usually took place in Land's Boston office and almost always included che Air Force's Ass istant Secretary for Research and Development, Dr. Joseph V. Charyk. and his Navy counterpart. Garrison Norton. Designers from several aircraft manufacturers also atte nded some of the meeti ngs. 3

' Donovan interview ($). ;路The OXCART Scocy:路 Studies in lmeliigl!nce 15 (Wimer 1971 ):2

($),

'Clarence L Johnson, Report No. SP路 1.362, "History of the OXCART Program:路 lockheed Aircraft Corporation. Burbank. CA. I July 1968. p. I (TS Codeword).

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A-1, 23 April 1958

A-1, 26 June 1958

Johnson's first dra wing of the "U-3" (A " 1); revised version of the A-7

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262 The two most prominent firms involved in the search for a new aircraft were Lockheed, which had designed the successful and Convair, which was building the supersonic B-58 "Hustler" bomber for the Air Force and also working on an even faster model known as the B-58B ''Super Hustler." Early in 1958, Richard Bissell asked officials from both firms to submit designs for a high-speed reconnais~ sance aircraft. During the spring and summer of 1958, both firms worked on design concepts without government contracts or funds. Following extended discussions with Bissell on the subject of a supersonic successor to the U-2, Lockheed's Kelly Johnson began designing an aircraft that would cruise at Mach 3.0 at altitudes above 90,000 feet. On 23 July 1958, Johnson presented his new high-speed concept to Land's advisory committee, which expressed interest in the approach he was taking. At the same meeting, Navy representatives presented a concept for a high-altitude reconnaissance vehicle that examined the possibility of developing a ramjet-powered, inflatable, rubber vehicle that would be lifted to altitude by a balloon and then be propelled by a rocket to a speed where the ramjets could produce thrust. Richard Bissell asked Johnson to evaluate this concept, and three weeks later, after receiving more details from Navy representatives, Kelly Johnson made some quick calculations that showed that the design was impractical because the balloon would have to be a mile in diameter to lift the vehicle, which in turn would need a wing surface area greater than one-seventh of an acre w carry the payload." By September 1958, Lockheed had studied a number of possible configurations, some based on ramjet others with both ramand turbojets. Personnel at Lockheed's Skunk Works referred to these aircraft concepts as "Archangel-!. and so nickname of to the a carryover from the

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Lockheed for a hydrogen-powered aircraft (the CL-400). The committee examined two other Kelly Johnson designs at this "''cua:e.--a tailless subsonic aircraft with a very-low-radar cross section (the G2A) and a new supersonic design (the A-2)~and did not accept either one, the former because of its slow speed and the latter because of its dependence on exotic fuels for its ramjets and its overall high cost. The committee approved the continuation of Convair's work on a ramjet-powered Mach 4.0 "parasite" aircraft that would be launched from a specially configured version of the B-58B bomber. The design was termed a parasite because it could not take off on its own but needed a larger aircraft to carry it aloft and accelerate it to the speed required to start the ramjet engine. The Convair design was 5 called the FISH. Two months later, after reviewing the Convair proposal and yet another Lockheed design for a high-speed reconnaissance aircraft (the A-3), the Land committee concluded in late November 1958 that it would indeed be feasible to build an aircraft whose speed and altitude would make radar tracking difficult or impossible. The committee, therefore, recommended that DCI Dulles ask President Eisenhower co approve further pursuit of the project and to provide funds for additional studies and tests! On ! 7 December 1958, Allen Dulles and Richard Bissell briefed the President on the progress toward a successor to the U-2. Also present were Land and Purcell from the advisory committee, Presidential Science Adviser James Killian, and Air Force Secretary Donald Quarles. DCI Dulles reviewed the results of the U-2 missions to date and stated his belief that a successor to the U-2 could be used all over the world and "would have a much to

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444" (37')

Con vair FISH

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267 Although President Eisenhower supported the purchase of this type of he questioned the plan to procure any before had been tested Promising that more thought would be to the mat~ ter before such an order was placed. Secretary Quarles noted that CIA, the Defense Department, and the Bureau of the were working on a funding plan for the project The President suggested that the Air Force "could support the project by transferring some reconnaissance money." At the close of the meeting, Eisenhower asked the group to return after completing the next work phase to discuss 7 further of the project with him.

COMPETITION BETWEEN LOCKHEED AND CONVAIR With funding for the proposed new type of aircraft now available, Richard Bissell asked Lockheed and Convair to submit detailed proposals. During the first half of 1959, both Lockheed and Convair worked to reduce the radar cross section of their designs, with assistance from Franklin Rodgers of the Scientific Engineering Institute. Iri pursuing his antiradar studies, Rodgers had discovered a phenomenon that he believed could be used to advantage by the new reconnaissance aircraft Known as the Blip/Scan Ratio but also referred to as the Rodgers' Effect, this phenomenon involved three elements: the strength of a radar return, the altitude of the object being illuminated by the radar, and the persistence of the radar return on the radar screen Indicator display).

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determined that a high-altitude object moving two ro three times as fast as a normal aircraft would such a small blip with so little that the radar opemtor would have difficulty it, if indeed he could even see it Rodgers estiof this Blip/Scan Ratio maced that for an aircraft to take phenomenon it must tiy ar altitudes approaching 90,000 feet and have a radar cross section of less than 10 square meters, preferably not much over 5 square meters. However, for a Mach 3.0 aircraft to achieve such a small radar cross section, its make many concessions in its structural By the summer of 1959, both firms had completed their proposals. rn June, lockheed submitted a for a ground-launched aircraft known as the A-IL It would have a speed of Mach a range of 3,200 miles, an altirude of 90,000 feet. and a completion dare of January 1961. Kelly Johnson had refused to reduce the aerodynamics of his in order to achieve a amiradar capability, and the A-ll's radar cross section, although noc was substantially than that of the much smaller parasite aircraft being designed by Convair.'' The Convair proposal called for a smalL manned, ramjet-powered, reconnaissance vehicle to be air launched from one of two specially configured Convair B-58B Super Hustlers. The FISH vehicle, a radical lifting body with a very-small-radar cross section. would fly at Mach 4.2 at 90.000 feet and have a range of 3,900 miles. Two would power its Mach 4.2 dash over the Prau & JT-l area. Once the FISH would exit nozzles and wing material that could would ab-

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Lockheed A-11

to be ignited. Since ramjet had only been tested in wind tunthere was no available data to prove that these would work in the application proposed by Convair. The second uncertain factor was the B-58B bomber that was to achieve Mach 2.2 before the FISH above 35,000 feet This version of the B-58 was still in the

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designs and continued the competition. Lockheed continued to work on developing a design that would be less vulnerable to detection, and Convair received a new CIA contract to design an air-breathing twin-engine aircraft that would meet the general specifications followed Lockheed.'' Following recommendations by the Land committee, both Lockheed and Convair incorporated the Pran & Whitney 158 power plant into their designs. This engine had originally been developed for the Navy's large. jet-powered flying boat, the Glenn L Martin Company's P6M Seamaster, and was the most powerful engine available. In 1958 the Navy had canceled the Seamaster program. which had left Pratt & Whitney without a buyer for the powerful 158 â&#x20AC;˘ IZ engme. Although the Land commirtee had not yet found an acceptable design, it informed President Eisenhower on 20 July 1959 that the search was making good progress. Concerned about the U-2's vulnerability to detection and possible interception and aware that the photosatellite project was encountering significant problems, the President gave his final approval to the high-speed reconnaissance 13 aircraft project

THE SELECTION OF THE LOCKHEED DESIGN By the late summer of 1959, both Convair and Lockheed had comt1P<:.ar'"

for a follow-on to the U-2. Convair's used much of the

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important design features that contributed to a small radar return were fiberglass engine inlets and wings whose leading edges were made of q Pyroceram. ~-

Lockheed's new enrry was much like its first. but with several modifications and a new designator, A -12. It, too, would employ two of the powerful 158 engines. Lockheed's major innovation in reducing radar return was a cesium additive in the fueL which decreased the radar cross section of the afterburner plume. This improvement had been proposed by Edward Purcell of the Land committee. Desiring to Kelly Johnson had decided not to construct the A-12 out save of steeL Traditional metals such as aluminum were out of could heat would be

Convair KINGFiSH

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Wind tunnel test of A -12 m odel

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273 characteristics, although the Lockheed design's specifications were slightly better in each category. The Lockheed design was also preferable in terms of overall cost fn the vital area of vulnerability to radar detection, however, the Convair design was superior. Its smaller size and internally mounted engines gave it a smaller radar cross section than the Lockheed A-12. '' Comparison of Lockheed and Convair Designs

Loc khet:d A· 1:2

Start

Cost summary (for 12 aircraft without engines)

Convair KlNGFTSH

!Vlach 3.2

Mach 3.2

4,120 nm

3,400 nm

3.800 nm

3,400 nm

84,500 ft.

85.000 ft

9!.000 ft.

88.000 ft.

97.600 ft.

94,000 ft.

$96.6 million

$121.6 million

Some of the CIA representatives initially favored the Convair KINGRSH design because of its smaller radar cross section, but they were eventually convinced to support the Lockheed design by the Air Force members of the panel, who believed that Convair's cost overruns and on the B-58 might be in oro>dU•C:ed the U-2 under

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With anti radar studies, structural tests, and enThis research and all later work on the A- 12 took under a new codename, Project OXCART. established at the end of August 1959 to replace its more widely known Project GUSTO. The C£A's manager for OXCART was John Parangosky, who had long been associated with rhe U-2 program.

EFFORTS TO REDUCE THE A-12'S RADAR CROSS SECTION During the spring of 1959, Kelly Johnson's Skunk Works crewwhich then numbered only 50~had begun building a full-scale mockup of the proposed aircraft The mockup was to be tested for its radar cross section by Edgerton, Germeshausen & Grier (EG&G) in cooperation with the Scientific Engineering Institute at a small testing facility at lndian Springs, Nevada. Lockheed objected £O this site because its pylon would not support the full-scale mockup and because the facilities were in full view of a nearby highway. On I 0 September 1959, EG&G agreed to move its radar rest facility to the former U-2 resting site at Area 51 of the Atomic Energy Commission's Nevada Proving Grounds.'' When the new radar test facility with its larger pylon was ready. Johnson put the A-12 mockup on specially designed tr..1iler truck that carried it from Burbank to Area 51, By 18 ~ovember I the atop the pylon, and radar testing could begin. that Lockheed's of fuel addi· but it would take more than before the OXCART achieved

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Radar testing of A-12 mockup

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Wing tooth

Spike

Antiradar features of the A-12

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277 to the what is known as a chine on each side. At first Johnson was concerned that these additions might impair the airworthiness of the plane, but wind tunnel determined that the chines actua!!y imparted a useful aerodynamic lift to the vehicle. Because titanium was very brittle and therefore difficult to bend, Johnson achieved the necessary curvature by combining triangular-shaped pieces of titanium called fillets. These fillets were glued to the framework of tht::: chines with a special adhesive. epoxy resin. On later OXCART models the fillets were made from electrically resistive honeycomb plastic with a glass-fiber surface that would not melt at speed. When struck by a radar pulse. the composite chines tended to absorb the pulse rather than reflect it A ~imiÂ lar approach was used for the leading edges of the wings. Again electrically resistive honeycomb material was fabricared into triangular shapes, known as wing teeth, and fitted into the titanium wings. Both the metal and composite tillets and teeth were held in place with the newly developed epoxy cements. The remaining area of concern in the A-12's radar cross section was the two vertical stabilizers. To reduce radar reflections, Kelly Johnson canted the stabilizers inward 15â&#x20AC;˘ and fabricated them out of resin-impregnated nonmetallic materials. Once these changes were completed, the only meta! in each vertical stabilizer was a stainless steel pivot. The Air Force. which later ordered several versions of the OXCART aircraft for its own use. never adopted the laminated vertical stabilizers."

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278 to achi eve the desired targe t a ltiwde of 91.000 feet. Afterward. he no ted in the project log: ··we hJ ve no performance margins left ; so thi s project. instead of be ing 10 times as hard as anyt hi ng we have do ne . is 12 times as hard. Thi s m atches the design numbe r and is obviously rig hc." ,., These changes satisfied Bissell . who no tified Jo hnson o n 26 January that the CIA was authorizing the construction o f 12 of the new aircraft. The actual contrac t was s igned on II February 1960. Lockheed 's orig inal quowtion for the project was $96.6 million for 12 aircraft . bu t techno logical difficulties e ventually made this pri ce im possible ro met!L Rt!cognizing that fabric ating a n aircraft from titanium might involve unforeseen difficulties. the C !A included a clau:;e in the con tract that all owc:d cos ts to be reevaluateli . During the next rive years . thi s c lause had to be invoked on a number of occas ions as the A- 1:2's cos ts soared to more than double the o ri ginal estimate . :u

NEW TECHNOLOGIES NECESSITATED BY OXCART'S HIGH SPEED Acco rding to the spec ificat ions . the OXCA RT aircraft wa:,; to achieve a speed of Mac h 3.2 (2.064 kn o ts or 0.57 miles per second. which would make it as fast as a rille bullet ). ha ve a range of 4.120 nautical miles. and reach altitudes o f 84.500 to 97.600 feet. The new aircraft would thus be more than five ti mes as fast as the U-2 and wou ld go al most 3 miles hig her. One major disadvantage of the OXCA RTs great s peed was high temperatures. Flyi ng thro ugh the earth 's at mos phere at Mach 3.2 heated portions o f the aircraft's skin to almost 900•F. An aircraft operating at these high speeds and high temperatures required fuels. lubricants. and hydraulic fluids that had not yet been inve nted. The OXCARTs fuel requirement calle d for a low-vapor-pres sure fud with a low vo lu me ac operating temperatures ; the fud would also be used as a heat sink to cool variou s pans of the aircraft. The 158 e ngines required lubricants that did not break down at the very high operating temperatures of Mach 3.2 speed s. This requirement led to the

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inventi o n of synthe tic lubricants. Lockheed also had to search long and hard for a hydraulic fluid that would no t vapo rize a t high speed but would still be usable at low altitudes. Finding a suitable hydraulic pu mp was j us t as difficult. Kelly Johnson fi nall y modified a pu mp that was being deve loped for North Ameri can 's B-70 bom ber project. :â&#x20AC;˘ Some of the greatest problems related to the high and hig h te mperatures at which the OXCART operated resulted from working with the material c hosen fo r the airframe- titanium . Afte r t:valuating many mate rials . Johnson had c hose n an alloy of titan ium

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OXCART pilot suit

(B-120) characterized by great strt!ngth. relmivdy light weighr. and good resistance to high temperatures. but high in cost. As .strong as stainless steel, titanium weighed slighrly more than half as much. Obtaining sufficient quantities of titanium of a quality suitable for fabricating aircraft components proveJ very difficult because methods for maintaining good quality co ntrol during thl! milling of titanium were not fully developed. Up to 80 percent of the early deliveries from Titanium Metals Corporation had !0 be rejected. It was not until 196!. when company officials were informed of the obj ectives and high priority of the OXCART prog ram. that problems with the titanium suppl y ended. Even after sufficient high-quality titanium was recei ved , Loc kheed ' s d iffic ulties with the metal were not o ver. Titan ium was so hard that tools normally used in aircraft fabrication bro ke : new ones the refore had to be de vi sed. Asse mbl y line production was not po ss ible . and the co st of the program moun ted well abo ve orig inal es timates. z: The high te mpe racu res that the O XCART would encounter also necessitated pl anning for the pilot's safety and co mfort beca use the inside of the aircraft would be like a moderately ho t o ve n. To sa ve

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weight Kelly Johnson did not attempt ro insulate the interior of the aircraft The pilot would therefore have to wear a of space suit with its own cooling. pressure controL oxygen supply, and other necessities for survivaL

DESIGNING THE OXCART'S CAMERAS Providing cameras for the A-12 posed a number of unique problems. [n late I OXCART managers asked Perkin-Elmer. Eastman Kodak, and Hycon to develop three differem photographic systems for the new aircraft. These cameras would provide a range of photography from high-ground-resolution stereo to extremely-high-resolution spotting data. The Perkin-Elmer (P-E) enrry. known as the Type-[ camera. was a high-ground-resolution general stereo camera using an f/4.0 I 8-inch lens and 6.6-inch film. (t produced pairs of photographs covering a s"':ath 71 miles wide with an approximately 30-percem stereo overlap. The system had a 5,000-foor film supply and was able to resolve !40 lines per millimeter and provide a ground resolution of 11 inches. To meet severe constraints in the areas of size. weighL thermal environment desired photographic resolution, and coverage. Perkin Elmer's Dr. Roderick ~t Scott employed concepts never be~ fore used in camera systems. These included the use of a cube rather than a prism for the scanner, a concentric film supply and shift. a film

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The Hycon entry. James Baker and known as the camera, vvas a camera with resolution. [n fact it was an advanced version of the B camera developed for the original U~2 program. It used a 48~inch t/5.6 lens to focus onto 9.5~inch tilm. Like the B camera it could provide seven frames of photography covering a swath 41 miles wide with stereo overlap on 19 miles of the swath. The Hycon camera carried the largest film supply of the three cameras. 12.000 feet It was able to resolve I 00 lines per millimeter and provide a ground resolution of 8 inches. A version of this 48~inch Hycon camera. known as the H camera. later saw service in U-2R aircraft. Each of the three camera systems had unique capabilities and advantages, so all three were purchased for the: OXCART Before: could be dfeccivdy employed in the aircraft. hov.cver. ne\1/ types of camera windows were needed. The OXCART's camera windo\VS had to be completely free from optical distortion. Achieving this goal was difficult in a window whose exterior would be subjected to temperatures of 550"F while the interior surface would be only 15(fF After three years and the expenditure of 52 million in research and development. the Corning Glass Works. which had joined this effort as a Perkin-Elmer subcontractor. solved the problem of a camera window that could withstand tremendous heat window was fused to the metal frame differentials, Its an unprecedented process involving sound

Later in the program, the OXCART received

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283 CHOOSING PILOTS FOR OXCART Just as in the U-2 the Air Force provided considerable support to OXCART. including training. fuel and weather service. One of the most important areas of support was the provision of all of the OXCART came from the Air Force. Prospective pilots had to be qualified in the most advanced fighters and be emotionally stable and well motivated. In contrast to I when cover considerations had limited the U-2 pilot selection process the Air Force was able to to individuals with reserve devise personnel and cover procedures that enabled both and reserve officers to volunteer to become OXCART pilots. Because of the limited size of the A-12 cockpit they had to be under six feet tall and weigh less than 175 pounds. Following extensive physical and 16 pOÂŁential nominees were selected for inpsychological tensive security and medical screening by the Agency. By the end of this screening in November 196 L only five individuals had been approved and had accepred the Agency's offer of employment on a highly classified project involving a very advanced aircraft. A second search and screening raised the number of pilots for the OXCART to eleven. The thorough screening process produced an elite group of pilots; all but one of these II officers eventually became generals. The new pilots transferred from military to civilian status and received compensation and insurance arrangements somewhat better than those of the U-2 pilots. zs

SELECTION OF A TESTING SITE FOR THE OXCART From the very it was dear that Lockheed could not test the OXCART aircraft at its Burbank

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284 storage capacity, and runway length were insufficient for the OXCART program, the site's remote location would greatly ease the security, and a moderate constructask of maintaining the tion program could provide adequate facilities. Construction began in September 1960: a C-47 shuttle service ferried work crews from to the site, Burbank to Las Vegas and from Las The new 8,500-foot runway was completed by 15 November !960. Kelly Johnson had been reluctant to have a standard Air Force runway with expansion joints every 25 feet because ht.! feared the would set up undesirable vibrations in tht: speedy aircraft. At his suggestion a 150-foor wide runway was therefore constructed of six 25-foot-wide longitudinal sections. each 150 feet long but gered. This layout put most of the expansion joints parallel to the direction of aircraft roll and reduced the frequency of the joints. Additional improvements included the resurfacing of 18 miles of highway leading to the base so rhar heavy fuel trucks could bring in the necessary fueL The need for additional buildings on the base was mer by the Navy. Three surplus Navy hangars were dismantled. moved, and reassembled on the north side of the base. and more than I00 surplus Navy housing buildings were also transported to Area 51, All essential facilities were ready in time for the forecast delivery date of the first A-12 on I August 196L

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285 ro reduce After much officials decided to decrease rhe number of deliverable aircraft Amendment No. II to the contract reduced from 12 to I 0 the number of A-1 for a total cost of $16 I million, The cancellation of these two A-12s was offset by an Air Force order for the development of a supersonic interceptor variant of the A-1 m serve as a replacement for the North American F- !08A Rapier intercepmr project, which had been canceled in late 1960. With the assistance of the Agency's west coast contracting office, the Air Force entered into an agreement with Lockheed to produce three AF-12 aircraft, based on the A- 12 design but modified to carry a second crewman and three air-to-air missiles. This effort was called KEDLOCK, The AF-12 (later redesignared the YF-!2A) was designed to intercept enemy bombers long before they reached the United States, and initial Air Force plans envisioned a force of up to I 00 of these supersonic interceptors. In fact, only three of these planes were built and delivered during the 1963-64 time frame because Secretary of Defense McNamara canceled the program as a cost-cutting measure. The Air Force bore all of the costs of the YF-12A projecf; CIA was only involved in helping to write ''black" contracts.:' Lockheed was not the only OXCART contractor having trouble containing costs; Pratt & Whitney was fighting an even bigger battle. [n mid-1961. Pratt & Whitney overruns threatened to halt the entire OXCART At the of Cdr. William Holcomb in the office of the Chief of Naval Materiel. Richard Bissell asked the Navy After Bissell and

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DELIVERY OF THE FIRST OXCART The first A-12, known as article 121. was assembled and tested at Burbank during January and February 1962. Since it could not be tlown to the Nevada the aircraft had to be partially disassembled and put on a specially designed trailer that cost nearly $!00,000 The entire without the was crated and covered, a load 35 feet wide and 105 feet To tran:sport this huge load safeiy obstructing road were reover the hundreds of miles to the moved. trees were trimmed. and some roadbanks had to be leveled. The plane left Burbank on 26 February !962 and arrived at Area 5 I two later. After the fuselage arrived in Nevada, its wings were attached and the 175 were installed. but the aircraft was still not ready to be tested. This new delay was caused by leaking fuel tanks, a problem that would never be solved completely. Because the A-ITs high speeds hear the titanium airframe to more than 500'F. Lockheed designers had to make allowances for expansion. When the metal was cold. the expansion joints were at their widest. rn the fuel ranks. these gaps were filled by pliable sealants. but the fuel for the A-ITs engines acted as a strong reducing agent that softened the sealants. causing leaks. Thus. when fuel was first poured into the aircraft. 68 leaks developed. Lockheed technicians then stripped and replaced all the a tedious and time because the sealant four each at a different temperature over a of 30 to 54 hours. The were never able to discover a to the jet fuel while The

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Delivery of OXCART aircraft to Area 51

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projects belonged to the Office of Special Activities, headed by Col. Jack C. Ledford. who now had the title of Assistant Director for Special Activities. These project management changes in the CIA had no immediate impact o n the OXCART project becaust: the aircraft was still in the development stage . handled mainly by the contractors. Moreover. a good deal of continuity was provided by o fficers who had servc:d for a number of years with the U-2 program and were now invol ved wi th OXCART: James Cunningham, the Deputy Assistant Director for Special Activities: Col. Leo Geary. the Air Force 路s project officer for the two aircraft: and John Parangosky, who oversaw the day-to-day affairs o f the OXCART project.

OXCART'S FIRST FLIGHTS

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With new ~ea l an t in its fuel tan ks . the prototy pe OXCA RT was ready co take to the air. On 25 April !962. tes t pi lot Louis Schalk took 路路article 12 [" for an unofficiaL unannounced flig ht. which was an o ld Lockheed tradi tion . He flew the craft less than two m iles at an alt itude of about 20 feet and e nc ountered considerable prob lem s because o f the improper hookup of several contro ls. These were prom ptl y re paired and on the next d:1y, 26 A pril. Schalk made the officml -W-minure maiden flig ht. After a beau ti ful ta ke o ff. the aircra ft began shedd in g the tri angular fillers that covered the framework of the chi nes along the edge of the aircra ft body. The lo:;t

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ChaPtef6-289 fillets, whi ch had bee n ec ured to the airfra me with epoxy re si n. had to be reco ve red and rea ffi xed to the aircraft, a process that took the next four days. Once the fillets were in place , the OXCART's official first flight took place on 30 April 1962. witnessed by a number of Agency personnel including DDR Sc oville. Ri c hard Bissell was also present, and Kelly Johnson noted in the project log , "I was very happy to have Dick see this flight , with all that he has contributed to the program ... " Thi s official first flight was also the first flight with the wheels up . Piloted again by Schalk. the OXCART took off at I 70 knots and climbed to 30 .000 feet. During the 59-minute flight, the A-12 achieved a top speed of 340 knots. Kelly Johnson declared it co be the s moothest firs t tes t flight of any aircraft he had designed or tested . On 2 May I 962, during the second test flight. the OXCART broke the sound barrie r, achieving a speed of Mach I . I :'~ Four more aircraft. including a two-seat trainer, arrived at the testing site before the end of the year. During the second delivery on 2_6 .June I 962. the extra-wide vehicle carrying the aircraft accidentally struck a Greyhound bus traveling in the opposite direct-ion. Project managers quickly authorized payment of $4.890 for the damage done to the bu s in order to avoid having to explain in co urt why the OXCART de livery vehicle was so wide. One of the bigge st problems connected with flight testin g the A-12 was keeping its existence secret. Realizing that the nation 路s air traffic controllers would be among the first unwitting people to learn about the plane, the Deputy Ass istant Director fo r S pecial Activities, James C unning ham. had called o n Federa l Avi atio n Adm in istrator Najeeb E. Halaby in early 1962 to brief him about the c raft's ex is tence and ask his assistance in kee ping it secre t. Halaby cooperated full y with the Agency and personally briefed all FAA regional chiefs on how to hand le reports of unusually fast. hi gh-flying airc raft. Air controllers were warned not to mention the craft o n the radio but to submit written re ports of sightin gs or radar trackings. The Air Force gave simi lar briefi ngs to NO RAD, the North American Air De fense Command ."

" Johnson. "Archangel log." 30 April 1962<

<; OSA Hisrory. chap<20, p< 63 (TS CoJc wonl);

.. OXC A RT S[ory," pp< 1-11 (S).

OXCART Story... pp. tO-ll (SJ: 05.-1 Hisrorv. ch:1p. ~0. p. 60 lTS Cocfc"orJ i.

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First flight of the A-12, 30 April 1962

Initial testing could not explore the A- L2's maximum potential. since the 158 engine was still not ready. Developing this power plant to OXCART specifications was proving much more difficult than had been expected because the J58 had to reach performance levels never before achieved by a jet engine. while operating under extremely difficult environmental conditions. To simulate the stress that the J58 would undergo during maximum power output (Mach 3.2 at 97.000 the power plant was tested in the exhaust stream of a 175 In the course of this extremely severe testing, the J58's were overcome. By January I Pratt & had delivered !0 158 to the Nevada The first of an A-12 with two 158 took

1963

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that a of the air-inlet system that controlled the amount of air admitted to the engine. In the new, inlet the projection at the front-known as a sotKe--vvas designed to move in or out as much as three feet in order to capture and contain the shock wave produced by the aircraft at high thus the shock wave from out the fire inside the engine. Another J58 engine problem in early 1963 was foreign object Small such as pens, pencils, screws, bolts, nuts, and metal shavings that fell into the engine nacelles during assembly at Burbank were sucked into the power plant during initial engine testing at Area 51 and impeller and compressor vanes. To control the problem Lockheed instituted a program that included X-rays, shaking of the nacelles, installing screens over various air inlets to the engine, and even having workers wear coveralls without breast pockets. Another source of foreign object damage was trash on the runways. The giant J58 engines acted like immense vacuum cleaners, sucking in anything lying loose on the paving as they propelled the A-12 down the runway for takeoff. To prevent engine damage, Area 51 personnel 1 h~~ to sweep and vacuum the runway before aircraft takeoff. "

NEW VERSIONS OF THE OXCART In 1962 the and the Air Force ordered two more versions of the OXCART (in addition to the A-12 and the YF-12A). One was a modification of the A~ I to carry and launch of Mach 3.3 The two-seater ""'""''"'"'v" M-12; the drone was called the The

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The second nev. version of the OXCART was another reconnaissance aircraft. In December 1962 the Air Force ordered six "reconnaissance/strike" aircraft, which were designed to conduct high-speed, high-altitude reconnaissance of enemy territory after a nuclear strike. This new aircraft differed from other A-12 versions in that it was longer, had a full-blown two-seat cockpit. and carried a large variety of photographic and electronic sensors. The additional weight of all this equipment gave the Air Force craft a slower maximum speed and a lower operaring ceiling than the A-12. In August 1963, the Air Force added 25 more aircraft to this contract, for a total of 31.

THE QUESTION OF SURFACING A VERSION OF THE OXCART As the funds being spent on Air Force versions of the OXCART increased dramatically, the Defense Department became concerned that it could not offer any public explanation for these expenditures. At the same rime, Agency and Defense Department officials recognized the growing danger that a crash or sightings of test flights could compromise the program. This fed the Defense Department in late 1962 and early !963 to consider surfacing the Air Force's interceptor version of rhe A-12 to provide a cover for OXCART sightings or crashes and an explanation for the rise in Air Force spending. Some journalists had also become aware of the aircraft's existence, that rhe secret would eventually come out in the press. officials remained reluctant to reveal the existence of any version of the I and the issue soon came to the attention of the PFIAB. James Land OXCARTs

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·· ~

. . ..'i .· ':"

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OXCART. This technology would be invaluable for Air Force projee rs such as the B-70 bomber and for the ci vii ian su personic trans-po~t (SST) then being di scussed in Congress. In the fall of 1963, several Presidential advi sers expressed their concern to DCI McCone that Lockheed had rece ived a $700 milli on headstart in the development of supersonic technology, giv ing the firm a tremendous advan tage over other aerospace companies working on a supersonic transport. McCone passed these concerns on to Pres iden t Kennedy on 12 November l963,just 10 days before the fateful trip to Dallas. The President instructed C[A and the Defense Department to develop a plan for surfaci ng the OXCART but to awai t further disc uss ions wi th hi m before taking any acti o n.N Pres ident Lyndon B. Johnson received a detailed briefi ng on the OXCART program from McCone, Mc Namara, Bundy, and Ru sk on 29 November, after just one week in office. McNamara strongly advocated surfacing a version of the OXCART McCone was more cautious, calling for the preparation of a statemen t that cou ld be used when surfacing be came necessary but arguing that such a step was not

·· John A. McCon.: . .. Memorandum of \k.:r ing in Ctb1n<::t Room for the Purpose of Discussin g the Surfaci ng of the OX." 2 Jan uary 1963. DC ! records (TS Codeword); idem. Memor.tndum for the Record. Di !i<:ussion with the President-October 2ht----{}:00 p.m .. 22 Octohc!r J<l63 . DC! re.:ords (5): OSA His/Of)', chap. 10. pp. 73-7-i iTS Codeword).

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294 needed. with McCone's position, President Johnson said in the issue should be reviewed One additional argument in favor of surfacing the OXCART was the realization that the aircraft could not be used to fly undetected over the Soviet Union. By 1962 the United States had become aware of the effectiveness of a new Soviet radar system, codenamed TALL KING. The introduction of this computer-controlled radar undercut one of the basic premises of the OXCART program. the assumption that radar operators would nor be able to track high-flying supersonic targets visually because of their small. nonpersistent radar returns. By coupling a computer to a radar, the Soviets could now weight the individual radar returns and identi those produced by high-tlying. very fast objects."' By February 1964 DCÂŁ McCone had become convinced that surfacing was necessary. Soviet development of the TALL KING radar system had eliminated his hope that OXCART would eventually be able to carry out its original intended purpose-overflights of the USSR. The final decision on the issue of surfacing the OXCART came at a National Security Council meeting on 29 February !964, at which all of the participants supported the decision to surface. That same day President Johnson held a news conference at which he announced the successful development of an "advanced experimental jet aircraft, the A-ll, which has been tested in sustained flight at more 2 than 2,000 miles per hour and at altitudes in excess of 70,000 feet." "' President Johnson had spoken the A-ll rather than the A-I and the aircraft that was revealed to the public was the Air Force's YF-12A a that had been canceled. the President's announcement, two of

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295 these aircraft were tlown to Edwards Air Force Base. From this point on, the Air Force versions of the OXCART were based at Edwards and provided a diversion so that the faster and higher flying A-12s at the Nevada site could cominue out of the public eye. The President's announcement did not mention the CIA's involvement in the project which remained classified, but keeping the Agency's extensive role in the OXCART a secret was not an easy task. The first step had been to separate the Air Force's versions of the A-12 from the Agency's by moving the Air Force aircraft to California. Nexr, those firms that were to be given the new technology had to be briefed on the program and agree to abide by the same secrecy agreements then in force with Lockheed. Moreover, everyone witting of OXCART (including those no longer associated with the program, such as Allen Dulles, Richard Bissell, and General Cabell) had been briefed about the impending Presidential announcement, so that they would not chink that the need for secrecy about OXCART had ended."" The process of surfacing versions of the OXCART cominued on . 25-July 1964. when President Johnson revealed the existence of a new Air Force reconnaissance aircraft, which he called the SR-71. Actually, the President was supposed to say RS- 71 (for "reconnaissance-strike"). Deciding that renaming the aircraft was easier than President Johnson. the Air Force invented a new reconnaissance"~to the SR-7l's

ADDITIONAL PROBLEMS DURING FINAL TESTING

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296 Two more A-12s were lost in later testing. On 9 July I article !33 crashed while landing when a pitch-control servo device froze, rolling the plane into a wing-down position. Ejecting from an altitude of 120 feet, the pilot was blown side>vays out of the craft Although he was not very high off the ground, his parachute did open and he landed during the parachute's first swing. Fortunately he was unhurt, and no news of the accident filtered out of the base. Eighteen months later. on 28 December 1965, article 126 crashed immediately after takeoff because of an improperly wired stability augmentation system. As in the previous crash, the pilot ejected safely. and there was no publicity connected with the crash. An investigation ordered by DCI McCone determined that the wiring error had resulted from 6 negligence, not saborage. " The A-12 made its first long-range, high-speed flight on 27 January 1965. The flight lasted I00 minutes. 75 minutes of which were liown at speeds greater than Mach 3.1. and the aircraft covered 2.580 miles at altitudes between 75,600 and 80,000 feet By this time. the OXCART was performing welL The engine inlet, camera, hydraulic, navigation, and flight-control systems all demonstrated acceptable reliability. Nevertheless. as the OXCART began tlying longer, faster, and higher, new problems arose. The most serious of these problems in路 volved the aircraft's wiring. Continuing malfunctions of the inlet controls. communications equipment, ECM systems, and cockpit instruments were often attributable to wiring failures. Wiring connectors and components had to withstand temperatures above SOO'E structural flexing, vibration, and shock. Such demands were more than the materials could stand. Not all the be

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decided to go to Nevada and take ment himself His presence made a big his notes in the

of the OXCART's as can be seen in

l uncovered many items managerial, materiel and ture . ... l had meetings wirh vendors to improve their cion .... Changed supervision and had daily talks with over in detail all problems on the aircraft. ... Increased the supervision in the electrical group by 500% . ... We tightened up the inspection procedures a great deal and made inspection stick. It appears that the problems are one-third due w bum engineer路 so many systems to the A-12 has greatly . The addition complicated the problems, but we did solve the overall problem.'' These improvements in on-site management got the project back on schedule. By 20 November 1965. the final validation flights for OXCART deployment were finished. During these tests. the OXCART achieved a maximum speed of Mach an altitude of 90,000 feet, and sustained tlight time above Mach 3.2 of 74 minutes. The maximum errdurance test lasted six hours and 20 minutes. On 22 November, Kelly Johnson wrote to Brig. Gen. Jack C. Ledford. head of the Office of Special Activities. stating. "The time has come when the bird should kave its nest.路路 "" Three years and seven months after its first Hight in April the OXCART was ready for operational use. ft was now time w find work for the mosr advanced aircraft conceived and builL

DISCUSSIONS ON THE OXCART'S FUTURE EMPLOYMENT

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A-12s at Area 51

Defense McNamara told DCI McCone that he doubted that the OXCART would ever be used and suggested that improvements in satellite reconnai ssance would very likely eliminate the need for the expensive OXCART program. Strongly di sagreeing. McCone wid McNamara that he had every intention of using OXCART aircraft to fly over the Sovie t Unio n. McCo ne rai sed th is issue with Presiden t Ken nedy in April 1963. at a time when the natio n's photosate1 1ites were experiencing a great nu mber of fail ures and the in te llige nce community was clamoring for better photography ro confirm or disprove allegation s of the ex istence of an antiballi sti c missi le system at Leningrad. Unconvinced by McCone's arg ume nts for OXCART overtligh ts . President Kenned y e:<pressed the hope that some means might be devised for improving 1 satellite image ry instead. 路"

"'John A 1\.lcConr::, ',;!c= morantlum fur the R..:conJ . " Summary of me..:t ing wi!h Secr..:tary s~cr.:tary Gilpacric . Gcncr..11 Carter and \! r. :VkCoo~ on 5 July 1962." 6 Ju l;. 196 2. DC! recnrJ , iS J: M<.: Conc. \-kmoranJ u m tnr the File. " 7-.k .::ti ng with the Pr.:si<kn!-5 :3{}-15 Apr 1963 in P:.t!m Bca.:h. Florid:t." DC! n:..:onJs (St.

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299 Although of the Soviet Union appeared to be our of the question, the OXCART's eventual employment elsewhere in the world remained a strong possibility, particularly after the Cuban Missile Crisis of October !962 demonstrated the continuing need for manned reconnaissance aircraft. Since satellites had not been able to supply the kinds of coverage needed, U-2s had carried out numerous overflights of Cuba. Nevertheless, the U-2 remained vulnerable to surface-to-air missiles (as had once again been demonstrated by the downing of a SAC U-2 during the Missile Crisis), and project headquarters had even briefly considered sending the A-12 over Cuba in October !962, even though the aircraft still lacked the required 158 engines and would have had to use much less powerful ones.'' After the Missile Crisis ended, Air Force U-2s continued to photograph Cuba under a tacit superpower understanding that such monitoring of the withdrawal of the missiles would proceed without interference. But the possibility of future Soviet or Cuban action against the U-2s remained, raising the dismaying prospect that the United States would not be able to tell if the Soviet Union was reintroducing ballistic missiles into Cuba. Such fears became acute in the summer of 1964 after Soviet Premier Nikita Khrushchev told foreign visitors such as columnist Drew Pearson. former Senator William Benton, and Danish Prime Minister Jens Otto Krag that, once the US elections had been held in November, U-2s Hying over Cuba would be shot down. Project headtherefore began preparing contingency plans (Project SKYLARK) for the possible employmem of OXCART over Cuba, even though the new aircraft was not yet ready for On 5 1964, the Acting DCI, Gen. Marshall S. staff to achieve emergency operational readiness 5 November Premier Khrushchev

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demonstrated its abil to conduct overtlighrs of Cuba by the 5 November deadline. which passed without any hostile action the Soviets or Cubans. The detachment then worked to develop the capability for sustained operations with its five aircraft. All these preparations were valuable training for the OXCART program, even though the SKYLARK contingency plan was never put into effect. Since U-2s continued to satisfy collection requirements for Cuba. the A-12s were reserved for more critical situations. When the Agency declared that OXCART had achieved emergency operarional status on 5 November 196-+. the aircrafÂŁ was still not prepared for electronic warfare. as only one of the several planned electronic countermeasure devices had been installed. Nevertheless. a senior government panel decided that the OXCART could conduct initial overflights of Cuba without a full complement of warning and jamming devices. should the need for such missions arise. One reason for the delay in completing OXCARTs electronic warfare preparations was the Air Force's concern that OXCART use of existing ECM devices could. in the evenc of the loss of an OXCART over hostile territory, compromise the ECM equipment used by Air Force bombers and fighters. Even if OXCART's EC~I devices were merely similar to military ECM systems, the Air Force still 1.vorried that their use would give the Soviets an opportunity ro work out countermeasures. Such concerns led the to an entirely different approach to antiradar efforts in Project KEMPSTER. This project attempted ro develop electron guns that could be moumed on the OXCART to genthe thac would reduce its radar erate an ion cloud in front the CIA

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hazards aerial reconnaissance of the People's Republic of China. In three years the had lost four U-2s over China. and the Air Force had lost numerous reconnaissance drones. The three men ro go ahead with all the preparatory needed for the OXCART to operate over China that it would be ready in case the President decided to authorize such missions. Project BLACK SHIELD, the plan for Far East operations. called for OXCART aircraft to be based at Kadena airbase on Okinawa. In the first phase. three planes would be fiown to Okinawa for 60-day periods, twice a year. an operation which would involve about 225 personneL Later there would be a permanent detachment at Kadena. In preparation for the possibility of such operations. the Defense Departmenc spent million to provide support facilities and real-time secure communications on the island by early autumn 5 1965. ' In the summer of 1965, after the United States had begun introducing large numbers of troops into South Vietnam. Southeast Asia became another possible target for the OXCART. Because the continued use of U-2s for reconnaissance missions over North Vietnam was threatened by the deployment of Soviet-made surface-to-air missiles. McNamara asked the CfA on 3 June 1965 whether it would be possible to substitute OXCART aircraft for U-2s. The new DCL Adm. William F. Raborn. replied that the OXCART could operate over Vietnam as soon as it had passed its final operational readiness tests." OXCART missions involved

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sufficient support. The JCS and the PFIAB supported the CIA's advocacy of OXCART deployment. Top State and Defense Department officials. however, thought that the political risks of basing the aircraft in Okinawa-which would almost certainly disclose it to the Japanese-outweighed any gains from the intelligence the OXCART might gather. On 12 August 1966, the divergent views were presented to President Johnson, who upheld the 303 Committee's majority opinion against deployment for the time being.~' The CIA then proposed an OXCART overflight of Cuba in order to test the aircraft's ECM systems in a hostile environment. On 15 September the 303 Committee considered and rejected this idea on the grounds that sending OXCART over Cuba 路路would disturb the ex57 isting calm prevailing in that area of our foreign affairs." With operational missions still ruled out, proficiency training remained the main order of business. This led to improvements in mission plans and flight tactics that enabled the detachmenr to reduce the time requi~ed to deploy to Okinawa from 21 days to 15. Records continued to fall to the OXCART. On 21 December 1966. a lockheed test pilar flew an A-12 for 16.408 kilometers over the continental United States in slightly more than six hours, for an average speed of 2.670 kilometers per hour (which included in-tlight refueling at speeds as low as 970 kilometers per hour). This flight set a record for speed and distance unapproachable by any other aircraft.'" Two weeks later, on 5 January 1967. an A-12 crashed after a fuel gauge malfunctioned and the aircraft ran our of fuel short of the runway. Pilot Waher Ray ejected but was killed when he could not become from the seat. To preserve the secrecy of the Force informed the press that This loss. like

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Soviet missile As as l the intelligence community to be concerned about the actual purpose of new missile instalnear Tallinn. Estonia. and soon spread lations that first the northwestern quadrant of the Soviet Union. Attempts to photothe sites reconnaissance satellites had been frustrated the prevailing cloud cover in the region. Because of the lack of accurate information about the missile sites. there was a wide divergence of views within the intelligence community about their purpose. These views from the CIA's belief that the insta!larions contained surface-to-air missiles designed to counter stratebombers. to rhe Air Force's comention that Tallinn sites represented a deployed antiballistic missile system. Phowinterpreters insisted that imagery with a resolution of 12 to 18 inches was necessary to determine missile size, antenna pattern. and configuration of the engagement radars associated wirh the system. Electronic intelligence (ELINT) analysts also needed data about the Tallinn radars, but there were no collection sites rhat could monitor the Tallinn emanations when the radars were being tested. Moreover. the Soviets never operated the radars in the tracking and lockdn modes, a fact that prevented analysts from knowing the frequencies or any other performance characteristics of the radar. To settle the question of the purpose of the Tallinn installations, Office of Special Activities planners proposed a mission that would use the high resolution of the OXCART's camera along with the U-2's sophisticated EUNT-collection equipment. This classified name was Project SCOPE LOGfC; its UPWIND.

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304 ho ped th at the A- l2 's passage would provoke Soviet air defense personnel ro activate the Tallinn system radars in order m track the swift OXCART aircraft As the A-12 made its dash down the Baltic, its Type-! camera would be filming the entire south coast. If Agency analysts were correct in the ir assumption that the Tallinn system was designed ro counter high-altitude aircraft at long ranges, then the OXCART would be in jeopardy during this dash down the Baltic. Nevertheless, Agency weapons experts believed that the A-12 aircraft's speed and suite o f electronic countermeasures would keep it safe from the srandard Soviet surface-to-a ir missile installations. While the A- 12 was conducting its high-speed dash along the Baltic coast of Eastern Europe, the U-2 would be flying farther out to sea, safely beyond the range of all Soviet SAMs . The U-2 would be able to collect the Tallinn radar installation's ELI NT emanations. Agency and Defense Department officials supported the proposed mission, but Secretary of State Dean Rusk strongly opposed it and the 303 Commiuee never forwarded the proposal to President Johnson. s·• The Tallinn radar installation remained of great interest to the inrelligence community. and in the late 1960s the CfA attempted to develop a small , unmanned reconnaissance aircraft that could photograph Tallinn and other coastal areas . The project (AQUILINE) was abandoned in 1971 (see appendix E).

FIRST A-12 DEPLOYMENT: OPERATION BLACK SHIElD Although the Talli nn mi ssion was sti ll being cons idered in May !967, another possible employment fo r the OXCA RT came under discussio n. Th is ti me the proposal was fo r O XC ART to co llect tac tical rather than strategic intelligence. The cause was apprehe nsion in Washin gton about the possible undetec ted introduction of surface-to-surface missiles into North Vietnam. When President Jo hnson asked for a proposal on the matter. the CIA suggested that the OXCART be used. While the State and De fense Departments were still examining the proposal's po litical risks . DCl Richard Hel ms

'• M.:morandum for DOC! R. L Taylor from C. E. Ou..:k.:u. ODS&T. "Collt:ction of Phoco :tnd ELli\11 Data on Tallinn Sites Utilizing the OXCART and the U·2." ~ May 1967.

DS&T records <TS COtkword).

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305 raised the issue at President Johnson's lunch" on 16 .\lay. Helms got the President's approvaL and the CIA put the BLACK SHIELD plan to the OXCART to the Far East into effect later thar same '" The airlift of personnel and equipment to Kadena began on 17 May 1967. and on 22 May the first A- i 2 flew nonstop from Area 51 to Kadena in six hours and six minutes. A second aircraft arrived on 24 The third A-12 left on 26 May. but the pilot had trouble with the inertial navigation system and communications near Wake lsland. He made a precautionary landing at Wake, where a pre-positioned emergency recovery team was locared. The problem was corrected and the aircraft continued its tlight to Kadena on the fo!!owing day. Before the start of the operation, the CIA briefed a number of US and officials on the operation. Included were the US Ambassadors

By 29 May 1967, 13 after President Johnson's approvaL BLACK SHIELD was to fly an operational mission. On 30 May. the detachment was alerted for a mission on the following day. As the takeoff time Kadena was deluged by rain, but, since weather over the area was clear. flight preparations in which had never

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306 During the next six weeks, there were alerts for 15 BLACK SHIELD missions, seven of which were actually flown. Only four detected hostile radar signals. By mid-July 1967. the BLACK SHIELD missions had provided sufficient evidence for analysts to conclude that no surface-to-surface missiles had been deployed in North 6 Vietnam. ' Project Headquarters in Langley planned and directed all operacional BLACK SHIELD missions. To ensure secure communica-

tions

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A typical mission over North Viernam required refueling south of Okinawa, shortly after takeoff. After the planned photographic passes. the aircraft withdrew for a second aerial refueling in the Thailand area before returning to Kadena. So great was the plane's speed that it spent only 12.5 minutes over Vietnam during a "single-pass" mission, and 21.5 minutes during a "two-pass" mission. Because of its wide 86-mile turning radius, the plane occasionally crossed imo Chinese airspace when getting into position for a second pass. After the aircraft landed, the camera film was removed and sem by special plane to processing facilities in the United States. By late summer, however, an Air Force photo laboratory in Japan began doing the processing in order to place the photointelligence in the hands of US commanders in Vietnam within 24 hours of a mission's completion. BLACK SHIELD half of 1967. From 16 alerted and I were tracked the vehicle with its FAN SONG Vtt>tn,;tmPâ&#x20AC;˘oP SAM

continued unabated during the second to 31 December l 26 missions flown~ On one SAM

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The time the enemy came close to downing an OXCART was on October 1967. his first pass over North Vietnam, Two SAM sites prepilot Dennis Sullivan detected radar pared to launch missiles but neither did. During Sullivan's second pass the North Vietnamese fired at least six missiles at the OXCART, each confirmed vapor trails on mission photography. The pilot saw these vapor trails and witnessed three missile detonations near but behind the A-12, which was traveling at Mach 3.1 at about 84,000 feet. Postflight inspection of the aircraft revealed that a piece of metal had penetrated the underside of rhe right wing, passed through three layers of titanium, and lodged against a support structure of the wing tank. The was not a warhead pellet but probably debris from 1 one of the missile detonations that the pilot observed." BLACK SHIELD missions continued during the tlrst three months of 1968, with four missions tlown over North Vietnam out of 14 alerts. The last OXCART overflight of Vietnam took place on 8 March 1968. During this same three-month period. the OXCART made its first overtlight of North Korea after the USS Pueblo was seized on 23 January 1968. The goal of this mission was to discover wf!ether the North Koreans were preparing any large-scale hostile move in the wake of this incident. When NPIC photointerpreters ex1 amined OXCART phowgraphy taken on 26 January. they found the missing USS Pueblo in Wonsan harbor. Secretary of State Dean Rusk was reluctant to endorse a second mission over North Korea for fear of diplomatic should the aircraft come down in hostile territory. The was assured that the plane could transit North Korea in seven minutes and was unto land in either North Korea or China. The 303 Committee then endorsed a second mission over North which was flown 19 A final of North Korea 8 of OXCART

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USS Pueblo in Wonsan Harbor

advanced aircraft ever built was to be put out to pasture. The abandonment of the OXCART did not result from any shortcomings of the aircraft; the causes lay in fiscal pressures and competition between the reconnaissance programs of the CIA and the Air Force. Throughout the OXCART program. the Air Force had been ex ceedingly helpful; it gave financial support. conducted the refueling program, provided operational facilitie s at Kadena. and airlifted OXCART personnel and supplies to Okinawa for the Vietnam and Korean operations. Air Force orders for variants of the CIA's A-1 2the YF- 12A interceptor and the SR-7 1 reconnai ssance aircraft- had helped lower develo pment and procurement costs for the OXCART. Neverthe less, once the Air Force had bui lt up its o wn fl eet of reconnaissance ai rcraft, budgetary ex perts began to critic ize the existe nce of two ex pens ive flee ts of si milar aircrafc. In November 1965. the very month that the A-12 had been declared operationaL the Bureau of the Budget circulated a memorandum that expressed concern abou t the costs o f the A- 12 and S R-7 1 programs. it questioned both the total numbe r of planes required for the combined tleeÂŁs, and the necessity for a se parate C IA flee t. The mem o randum reco mmended phas ing out the A- 12 program by September 1966 and S[Opp ing any further procurement of the SR -7 1

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In the Bureau of the Budget's a study group \Vas established to look for ways to reduce the cost of the OXCART and SR-7 I programs. The study group consisted of C. W. Fischer from the Bureau of the Budget. Herbert Bennington from the Department of Defense, and John Parango~ky from CIA. The study group listed three possible courses of action: maintain both tleets, mothball the A-12s but share the SR-71 s between CIA and the Air Force. or mothball the A-! 2s and assign ali mi::;sions to Air Force SR-71 s. On 12 December 1966, four high-kvel oflicials met to consider these alrernatives. Over the objections of ocr Helms, the other three officials-Deputy Secretary of Defense Cyrus Vance, Bureau of the Budget Director Charles L. Schultze, and Presidential Scientific Adviser Donald E Hornig--decided to terminate the OXCART tleet. Concerned that this recommendation would strip the C!A of its supersonic reconnaissance capability, Helms then asked that the SR-71 fleet be shared between CIA and the Air Force.'' Four days later. Schultze handed Helms a draft memorandum for the President requesting a decision either to share the SR-71 t1t:et between CIA and the Air Force or to terminate the CIA capability enreceived new information indicating that the was inferior to that of the A-11. Helms asked for another meeting to review this data. His concern was that the SR-71 could not match the photographic coverage that the A-1:! could Only one of the SR-7l's three camera

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[n spite of Helms's request and the strength of his arguments. the Bureau of the Budget memorandum was submined to President Johnson. On 28 December 1966, the President approved the termina· tion of the OXCART program by I January 1968. This decision meant that CIA had to develop a schedule for an orderly phaseout of the A·l2. This activity was known as Project SCOPE COTTON. Project headquarters informed Deputy Defense Vance on I0 January 1967 that the A·l2s would gradually be placed in storage, with the process ro be completed by the end of January 1968. In May 1967, Vance directed that SR·71s would as· sume responsibility for Cuban overflights by I July 1967 and would add responsibility for overflights of Southeast Asia by I December 1967. Until these capabilities were developed, OXCART was to remain able to conduct assignments on a 15-day notice for Southeast 67 Asia and a seven-day notice for Cuba. All these arrangements were made before the OXCART had con· ducted a single operational mission, which did not occur until 31 May 1967. [n the months that followed the initiation of operations in Asia. the OXCART demonstrated its exceptional technical capabilities. Soon some high-level Presidenrial advisers and Congressional leaders began to question the decision to phase out OXCART, and the issue was reopened. The CIA contended that the A·l2 was the better craft because it flew higher, and had superior cameras. The Air Force maintained that its two-seat SR-71 had a better suite of sensors, with three and mapping), infrared detectors, aerial and EUNT-collection gear. fn an effort to resolve this argument, the two were each codenamed NlCE GIRL On

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3,300-foot film supply. On the other hand, the SR-71 's side-looking aerial radar, and ELINT/COMINT equipment provided some unique intelligence nor available from the A-12. Air Force planners admitted. however, that some of this equipment would have to be sacrificed in order to the SR~7l with ECM gear.M Although the tlyoff had not settled the question of which aircraft was superior, the OXCART did win a temporary reprieve in late November 1967. The Johnson administration decided to keep both fleets for the time being, particularly because the OXCART was actually flying missions over North Vietnam. With expenditures for the Vietnam war steadily, the question of reducing the costs of competing reconnaissance programs was bound to surface again. In the spring of 1968, there was yet another study of the OXCART and SR-71 programs. On 16 May 1968, the new Secretary of Defense, Clark Clifford, reaffirmed the original decision to terminate the OXCART program and sÂŁOre the aircraft. President Johnson confirmed this decision on 21 May."" â&#x20AC;˘ Project headquarters selected 8 June 1968 as the earliest possible date for phasing out all OXCART aircraft. Those A-12s already at the Nevada site were placed in storage, and the aircraft on Okinawa were scheduled to return by 8 June. Unfortunately, tragedy struck before this redeployment took place. On 4 June 1968 during a rest flight from Kadena to check out a new engine, an A-12 disap520 miles east of Manila. Search and rescue missions found later no trace of the plane or its pilot, Jack W. Weeks. Several the two A-l2s left Okinawa to the other eight California. Because the OXCART aircraft I the

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Initial s torage arrangements for A - 12s at Palmdale

POSSIBLE SUCCESSORS TO THE OXCART The OXCART was the last high-altitude reconnaissance aircraft produced for the CIA. although the Office of Special Activities did briefly consider several possible successors to the OXCART during the mid-1960s. The first of these. known as Project ISINGLASS. was prepared by General Dynamics to utilize technology developed for its Convair Di visio n 路s earlier FISH proposal and its new F- Ill fighter in order to create an aircraft capable of Mac h 4-5 at I 00.000 feet. General Dynam ics completed its feasibility study in the fall of 1964. and OSA took no further action because the proposed aircraft would still be vulnerable to existing Soviet countermeasures. In 1965 a more ambitious design from McDonnell Aircraft came under cons ideration as Project RHEINBERRY (although some of the work see ms to have come under the ISlNGLASS desig nation as well) . This proposal featu red a rocket-powered aircraft that would be launched from a B-52 mother ship and ultimately reach speeds as high as Mach 20 and alti tudes of up to 200.000 feet. Because build ing this aircraft would have and correspond ingly high involved tre mendous technical costs, the Agency was not willing to embark on such a program at a time when the main emphasis in overhead reconnaissance had shifted from aircraft to satellites. As a resu lt. whe n the O XCART program ended in the summer of 1968. no more advanced successor was waiting in the wings--only the veteran U-2.

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SUMMARY OF THE OXCART PROGRAM ln(ended to the the U-2 as a collector of OXCART was never used for this purpose. Its brief deployment was for obtaining tactical intelligence and irs photographic product contributed very little to the Agency's incelligence mission. By the time OXCART became operational, photosateltite systems had tilled the role originally conceived for it The most advanced aircrafr of the 20th cemury had become an anachronism before it was ever used operationally.'" The OXCART did not even outlast the U-2, the aircraft it was supposed to replace. The OXCART lacked the quick-response capability of the smaller craft: a U-2 unit could be activated overnight. and within a week it could deploy abroad. fly .,;orties. and return to home base. The OXCART planes required precise logistic planning for fuel and emergency landing and their inertial guidance systems needed several days for programming and stabilization. Aerial tankers had to be deployed in advance along an OXCART's flighc route and p.rovisioned with the highly specialized fuel used by the 158 enAll of this required a deal of time and the effort of several hundred people. A U-2 mission could be planned and flown with a third fewer personneL Although the OXCART program created a reconnaissance aircraft with unprecedented range. and altitude. the proin other areas: most important contributions

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U-2 OVERFLIGHTS OF THE SOVIET UNION Before the first U-2 overflights in the summer of 1956. project man_agers believed that their aircraft could fly virtually undetected over the Soviet Union. They did not expect this advantage to last very long, however, because they also expected the Soviets to develop effective countermeasures against the U-2 within 12 to 18 months. Recognizing that time was against them , the U-2 project managers planned a large number of missions to obtain complete coverage of the Soviet Union as quickly as possible. At this time, the U-2 program focused solely on the collection of strategic intelligence. Once operations began , however, project man agers found themselves operating under severe constraints. Contrary to the CIA's expec tatio ns, the U-2 co uld not fly undetected. fts overfl ights led to Soviet diplomatic protests and numerous attempts at interceptio n. Not wishing to aggravate the Sovie t Union duri ng periods of tension or to harm relations duri ng more fa vorable intervals. President Eisenhowe r placed strict li mits on overflig hts, personally authorizing eac h one and greatly limiting their number. Yet, the President ne ver went so far as to el im inate the overfl ight program. As Commander in he val ued the intelligence thar the U-2 overfli ghts co llected. espec iall y at times when the press and Co ngress alleged that the United States was fall ing behind the Soviet Unio n mili rarily, first in bombers and then in missi les. As a res ult of the President's ambiva lence toward o verflights, the years 1956-60 were marked by long periods during which no overflights occurred, followed by brief bursts of activity.

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The low level of overflight did not prevent the U-2 from accomplishing a lot in the four years it flew over the Soviet Union and Eastern U-2 missions made deep penetration of the Soviet Union: six by Detachment A from three by Detachment C from the Far East and Alaska. and 15 by Detachment 8 from Turkey and Pakistan. including the unsuccessful Powers mission. The amount of information these missions gathered was impressive. By the summer of 1960, the U-2 project had developed more than l, 285.000 feet of film-a strip almost 250 miles long. The U-2s covered more than l ,300,000 square miles of the Soviet Union, ap路 proximately 15 percent of its total area. [nformation from U-2 photographs was used to prepare separate photoanalytical reports.' Numbers alone cannot describe the importance of the U-2 overflight project. In a 28 May 1960 memorandum, after Powers was shot down. DCI Allen W. Dulles described the program's accomplishments: '-Five years ago. before the beginning of the U-2 program .... half knowledge of the Soviet Union and uncertainty of its true power position posed tremendous problems for the United States. We were faced with the constant risk of exposing ourselves to enemy attack or of needlessly expending a great deal of money and effort on misdirected military preparations of our own." Dulles wenc on to describe the U-2's contribution in information on four critical asof the Soviet Union's power position: its bomber force, its misits atomic energy program. and its air defense system.

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The "bomber-gap" controversy was soon followed by a "missile-gap" controversy, provoked by an extensive Soviet propaganda campaign that claimed a substantial Soviet lead in developing and deploying lCBMs. U-2 missions searched huge stretches of the Soviet Union the rail for ICBMs deployed outside the known missile testing facilities. These missions enabled the ClA to conclude, as Dulles explained to Congress in May 1960, that "the Soviet ICBM program has not been and is not now a crash program; instead, it is an orderly, well-planned, high-priority program aimed at 3 achieving an early ICBM operational capability." As with the controversy over Soviet bomber strength, information from U-2 photography enabled President Eisenhower m resist pressure ÂŁO accelerate the US missile deployment program by building obsolescem liquid-fueled missiles rather than waiting to complete the development of more reliable solid-fueled missiles. U-2 missions also gathered considerable dam on the Soviet Union's atomic energy program. including the production of fissionable materials. weapons development and testing activities, and the location and size of nuclear weapons stockpile sites. Such U-2 photography also revealed no evidence that the Soviet Union had violated the nuclear testing moratorium. One of the greatest contributions of the U-2 program was to increase the capabilities of the US deterrent force. Before the U-2 overinformation was based on obsolete materials nights, most thereafter. With the assistance back to World War II or of U-2 the Defense Department could allocate weapons and ~2

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The U-2 program not only provided information on individual Soviet weapons systems, but also helped analysts assess basic Soviet intentions, particularly during crisis situarions, as Dulles wrote in May 1960:

Whenever the international situation becomes tense because of a problem in some particular area, we are concerned whether the situation might get beyond conrrol-thar someone on the other side might suddenly and irrationally unleash big war., .. Our knowledge of Soviet military preparations, however, resulring from the oveiflight program, has given us an ability to discount or call the bluffs of the Soviets with confidence. We have been able to conclude that Soviet statements were more rhetorical than threatening and that our courses of action could be carried through without serious risk of war and without Soviet 4 inteiference. Dulles closed his report on the U-2's accomplishments by putting the program in perspective as part of the entire national intelligence effort, noting that "in terms of reliability, of precision, of access to otherwise inaccessible installations, its contribution has been unique. And in the opinion of the military. of the scientists and of the senior officials responsible for our national security it has been, to put it simply. invaluable."

The impact of the U-2 overflights on international re!acions is harder to measure. On the one hand, the intelligence they gathered was a major factor in keeping the United States from beginning a and destabilizing arms race in the late 1950s and early 1960s that the Soviet Union was not in major buildups bombers and intercontinental ballistic missiles. On the

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PARTICIPATION OF AlliES IN THE U-2 PROGRAM From the very beginning of the overflight project, US Allies valuable support. Bases in Germany, played a major role in overflights the Soviet Union. Bases in India, Thailand, Japan, and rhe Philippines greatly assisted operations in Asia. Two Allies-the United Kingdom and Nationalist China-made an even contribution to the U-2 program by providing pilots and conducting overflights. British pilms began flying in late 1958 and conducted two important overflights of the Soviet Union in late 1959 and early 1960. After the end of such missions in May 1960, the need for British participation lessened. RAF pilots henceforth flew only or ferry missions, although their use for operational missions was considered on several occasions. The end of overflights of the Soviet Union reduced the importance of British participation but resulted in the addition of a new source of pilots when the focus of interest for the U-2 in its strategicintelligence-gathering role shifted to the People's Republic of China. The United States and Nationalist China had been conducting joint r~l;onnaissance projects over the Chinese mainland since the mid-l950s, and in 1961 the CIA equipped the Nationalist Chinese with the latest in reconnaissance aircraft, the U-2. For the next 12 years, U-2s with Nationalist Chinese pilots brought back quantities of information on the development of Communist China's armed forces, nuclear technology, and economy. Such information was extremely important to US policymakers. Nationalist China paid a high in lives for its participation in the U-2 seven pilots died in accidents and two on and another three were ""''"u,, "'u

AS COLLECTORS OF TACTICAl INTElliGENCE

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involvement in Indochina, U-2 photography provided accurate and up-to-date to US and field commanders, asthem in crisis management and the planning of milimry operations. U-2s also assisted in monitoring cease-fire agreements in the Middle East, with operations after an undeclared \var in 1970 and the !973 Middle East war. By the time the OXCART became fully operationaL manned strategic reconnaissance of the Soviet Union was no longer seriously considered. The political risks were too high. especially since the quality of intelligence from reconnaissance satellites was increasing steadily. Thus, the OXCART's only operational use was for collecting the OXCART gathtactical intelligence in the Far East. Like the en:~d valuable intelligence during crisis situations. Thus. in January !968. OXCART photography revealed the locarion of the USS Pueblo and showed thac the North Koreans were not preparing any military activity in conjunction with the seizure.

ADVANCES IN TECHNOLOGY One very important byproduct of the CIA's manned reconnaissance program was the many advances in technology that it generated. Thanks to simplified covert procurement arrangements and the lack of detailed and restricting specifications. creative designers such as Kelly Johnson produced aircraft in record time. The U-2. to carry out reconnaissance missions for two years at best. proved so successful that, even after its original area of activity for at the end of four years, the airbecame too well for another 14 and still is in service served the

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government could not afford to maintain two such similar reconnaisOXCART program sance programs. The elimination of the did not, however, spell the end of the usefulness of the world's most advanced aircraft; its offspring, the SR-71, is still in service. In addition to the aircraft themselves, many other items associated with the reconnaissance program have represented important advances in technology. The flight suits and life-support systems of the U-2 and OXCART pilots were the forerunners of the equipment used in the space program. Camera resolution improved dramatically as the result of cameras and lenses produced for the CIA's reconnaissance program.

COOPERATION WITH THE AIR FORCE In this history, which concentrates on the CIA's involvement in overhead reconnaissance, it is easy to overlook the important role that the US Air Force played in the U-2 and OXCART programs. From the very beginnings of the U-2 program in 1954, the Agency and the Air Force were partners in advancing the state of the art in overhead reconnaissance. Air Force personnel served at all levels of the reconnaissance program, from project headquarters to the testing site and field detachments. The Air Force supplied the U-2's engines, at times diverting them from other high-priority production lines. Perhaps most important of all, the Air Force provided pilots for the U-2s after the original attempt to recruit a sufficient number of skilled pilots proved unsuccessfuL Finally, the day-to-day operations of the U-2s could not have been conducted without the help of Air Force mission weather and the detachments.

IMPACT THE OVERHEAD RECONNAISSANCE PROGRAM ON THE CIA

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322 technical means of collection. As soon as the U-2 began flying over the Soviet Union, irs photographs became the most important source of intelligence available. The flood of information that the U-2 missions gathered led to a major expansion of the photoimerpretation capabilities. which finally resulted in the creation of the National Photographic fnterpretation Center to serve the entire intelligence community. The U-2's tremendous success as an intelligence-gathering system led the Agency to search for follow-on systems that could continue to obtain highly reliable information in large quantities. Thus. the CIA sponsored the development of the world's most advanced aircraft-the OXCART-and also pioneered research into photosatellites. Less than a decade after the U-2 program began, the Agency's new emphasis on technical means of collection had brought about the creation of a new science-oriented directorate, which would ultimately rival in manpower and budget the Agency's other three directorates combined. The negative aspect of this new emphasis on technology is exploding costs. The Agency's first strategic reconnaissance aircraft, the U-2, cost less than S I million apiece. With the U~2's successor, the OXCART, each aircraft cost more than $20 million. and the cost explosion has continued with each new generation of reconnaissance satellites. Perhaps the of the CIA's into the world of overhead reconnaissance in December !954 was the new na~ US aircraft had Frein the decade after World War

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APPENDIX A

AEC AFB AFDAP

A:VtD ARC ARDC ASPIC ATrC BSAP BUORL CO MINT COM IREX COM OR DB DCI DCID DOCI

DDI DDP DDS&T DPD DPS

Atomic Energy Commission Air Force Base Air Force office symbol for the Assistant for Development Planning under the Deputy Chief of Staff for Development Air/Maritime Division Ad Hoc Requirements Committee Air Research and Development Command (USAF) Asian Photographic Interpretation Center Air Technical Intelligence Center (USAF) Boston Scientific Advisory Panel Boston University Optical Research Laboratory Communications Intelligence Commictee on Imagery Requirements and Exploitation Committee on Overhead Reconnaissance "Dirty Bird" Director of Central Intelligence Director of Central Intelligence Directive Deputy Director of Central Intelligence Deputy for Intelligence Deputy Director (or Directorate) for Plans Deputy Director for Science and vrr""'"'~ Division '"'""''"'"'c Staff

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MRBM NACA NAS NASA

NIE NPIC NSA NSC NSCID ODM ORR OSA OS( PBCFIA P-E PFIAB PI PIC

pro PSAC RAF RFP SAB SAC SAC SA/PC/DC拢 SAM

Medium-range ballistic missile National Advisory Committee for Aeronautics Naval air station National Aeronautics and Space Administration National Intelligence Estimate National Photographic Interpretation Center National Security Agency National Security Council National Security Council Intelligence Directive Office of Defense Mobilization Office of Research and Reports Office of Special Activities Office of Scientific Intelligence President's Board of Consultants on Foreign Intelligence Activities Perkin-Elmer Company President's Foreign Intelligence Advisory Board Photointerpreter Phomgraphic Intelligence Center Photo-Intelligence Division President's Science Advisory Committee Royal Air Force Request for proposal Scientific Advisory Board (USAF) Science Advisory Committee Air Command JIJl;;;'-'路"' Assistant to the DCI and Coordination

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AYER, Frederick, Jr. Special assistam to Trevor Gardner in the Office of the Secretary of rhe Air Force, Ayer was a strong advocate of overhead reconnaissance by balloons and an early supporter of Lockheed's CL-282 design.

BAKER, James G. Harvard astronomer and lens designer, Baker was a leading of high-acuity aerial lenses during World War II and continued this work after the war. He also headed the Air Force Intelligence Systems Panel and served on the Technological Capabilities Panel's Project Three commictee that urged the development of the U-2 aircraft Baker designed the lenses for the U-2's cameras.

BISSELL, Richard M., Jr. Head of all CIA overhead reconnaissance programs from 1954 until 1962, a former economics professor at MIT and high official of the Marshall Plan, Bissell became Allen W. Dulles's Special Assistant for Planning and Coordination in January 1954 and received responsibility for the new U-2 project at the end of that year. Later he also headed the first photosatellite project and oversaw the development of the OXCART. In 1959 Bissell became Deputy Director for Plans but kept the reconnaissance projects under his controL He resigned from the CIA in February 1962.

CABELL, George Pearre Air Force Cabell

and DDCI from i953 until 1962. Because of

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the Air Force in 1959. Five months later he moved up to Assistant of the Air Force for Research and Development, y~ar he became Under the Air Force. and the In these positions he was involved in coordination with the CIA on both the and In left to become the first chairman of the Communications Corporation.

CUNNINGHAM, James A., Jr. An ex-Marine he became the administrative officer for the U-2 project in April 1955. Cunningham handled the m~tnage1ment of the U-2 program and brought only the more problems to Richard Bissell's attention. Later he served as rhe Deputy Director of the Office of Special Activities and then Special Assistant to the Deputy Director for Science and Technology.

DONOVAN, Allen F. An aeronautical who had to the P-40 while working at the Curtiss-Wright Corporation. Donovan was one of the founders of the Cornell Aeronautical Laboratory after World War IL He served on several Air Force advisory panels and was a advocate of the proposed Lockheed aircraft. Later he Corporation. became vice president of the

DOOLITTLE, James H. A vice president of Shell Oil and an Air Force reserve Doolittle headed General Eisenhower's Air durWorld War lL After the war Doolittle served on many Air Force and in 1954 he chaired a

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329 program when he saw how much intelligence it could on the Soviet Union. Because his own interests lay more in the area of human intelligence, he left the managemem of the reconnaissance program in the hands of DDCI Cabell and project director Richard BisselL

GARDNER, Trevor During World War II, Gardner worked on the Manhattan Project, and later he headed the General Tire and Rubber Company before starting his own research and development firm, the Hycon Company, which built aerial cameras. Gardner served as the Secretary of the Air Force's Special Assistant for Research and Development and then as the Assistant Secrecary for Research and Development during Eisenhower's first term of office. Gardner's concern about the danger of a surprise attack helped lead to the establishment of the Technological Capabilities Panel. Gardner also urged the building of Lockheed's CL-282 aircraft. GEARY, Leo P. Air Force colonel (later brigadier general) who was James Cunningham's Air Force counterpart in the U-2 program. He was instrumental in diverting engines from other Air Force projects for use in the U-2, and his lO years with the U-2 project provided a high degree of continuity. GOODPASTER, Andrew J. An Army colonel who served as President Eisenhower's Staff ::>e<:retarv from 1954 to 1961. During this period, he was the C[A's point of contact in the White House for meetings with the President on the subject of overhead reconnaissance. Goodpaster's later career included service as the supreme commander of NATO and then commandant of the US at

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KIEFER, Eugene P. An Air Force officer with a degree in aeronautical engineering who in 1953 informed a friend at Lockheed of the Air Force's search for a high-altitude reconnaissance aircraft, thus, leading to the initial design of the CL-282. After leaving the Air Force, Kiefer became Richard Bissell's technical adviser for the OXCART and photosatellite programs.

KILLIAN, James R., Jr. President of the Massachusetrs Institute of Technology, Killian headed a high-level and very secret study of the narion's ability co withstand a surprise attack. While this project was still under way, he and Edwin Land persuaded President Eisenhower to support the development of a high-altitude reconnaissance aircraft, the U-2. Lacer, Killian headed Eisenhower's Board of Consultants for Foreign Intelligence Activities, served as his Cabinet-level science adviser. and chaired the President's Science Advisory Board. Killian was also chairman of the President's Foreign Intelligence Advisory Board under John F. Kennedy. LAND, Edwin H. An extremely talented inventor famous for the development of polarizing filters and the instant-film camera. Land also devoced considerable time and energy to voluntary government service_ During World War II, Land worked for the Radiation Laboratories, and after the war he served on numerous Air Force advisory panels. As the head of the Technological Capabilitites Panel's study group investigating US intelligence-gathering capabilities, Land became a advocate of the development of a high~ahitude reconnaissance aircraft under civilian rather than Air Force control. Land and James

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Institute, an proprietary working on ways to reduce the U-2's vulnerability to radar detection. In !957 he founded Itek Corporation.

LUNDAHL, Arthur E. A Navy photointerpreter during World War ri and afterward. Lundahl became the chief of the Photo-Intelligence Division in 1953. To support the U-2 project, he established a separate photointerpretation cemer under Project HTAUTOMAT. Under his leadership the PhotoInteltigence Division grew rapidly and achieved office status as the Photographic Imeiligence Center in 1958. ln 1961 Lundahl became the first head of the National Photograhic Interpretation Center, which combined the photointerpreration efforts of the CIA and the military services.

McCONE, John A. DCf from 1961 to 1965. A strong supporter of the CIA's manned reconnaissance program, McCone presided over the OXCART's main period of development and pushed for a greater role for the CIA in its joint reconnaissance programs with the Department of Defense. MILLER, Herbert I. Miller worked in the Office of Scientific Intelligence's nuclear branch and became Richard Bissell's first deputy for the U-2 project He later left the Agency to work for the Scientific Engineering Institute.

NORTON, Garrison An to Trevor Gardner, Norton became an supporter of the Lockheed CL-282 and started the CIA's interest in overhead reabout the aircraft Norton

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PERKIN, Richard S. Pres ident of the Perkin-Elmer Corporation , Perkin was a close friend of James Baker and was also a member of several advisory panels, including the BEACON HfLL project He helped Baker decide what cameras to use in the first U-2 aircraft

POWERS, Francis Gary An Air Force Reserve Officer who became a CIA U-2 pilot in 1956, Powers tkw 27 successful missions before being shot down over the Soviet Union o n I May 1960. After his return to the United Scates in exchange for Soviet spymaster Rudolf Abel in 1962, Powers was cleared of all allegations of misconduct in hi s mission. capture. trial. and captivity. He became a test pilot for Lockheed and later piloted light aircraft and helicopters for radio and television stations. He died in a helicopter crash on I August 1977.

PURCELL, Edward M. A physicist who won a Nobel prize in 1954 for his work in nuclear resonance. Purcell served on a number of advisory bodies. including the USAF Scientific Advisory Committee and Edwin Land's Technological Capabilities Panel study group. It was Purcell's ideas for reducing the radar cross section of the U-2 that led to the OXCART program. Purcell al so contributed to the satellite programs.

RABORN, William F., Jr. DC拢 from 1965 to !966. Raborn pushed for the deploy men t of OXCART to the Far East but failed to s way the top officials of the Jo hnson administration.

REBER, James Q. After serving as the Assistant Director for Intelligence Coordination in the early 1950s , Reber became the chairman of the Ad Hoc Requireme nts Committee in 1955 and continued to chair this commi ttee after it was take n over by the US Intell igence Board in 1960 and renamed the Committee on Overhead Requ ireme nts. In 1969 he became the chairman of the USfB 's S!G INT Committee.

s______,::....,~.,..e-------------

RODGERS, Franklin A. r Formerly of MIT, Rodgers was the chief e ngineer at the Scientifi c Enginee ring {nstitute who converted the theories of Edward Purcell imo practical systems to reduce the radar image of the U-2 and especially the OXCART.

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Appen d ix 8

333

SCHLESINGER, James R. DCÂŁ from February to July 1973, Schlesinger supported the Nixon ad mini stration's proposal to terminate the Agency 's U-2 program.

SCOTT, Roderic M. An engineer with Perkin-Elmer who worked with James Baker in designing the first cameras for use in the U-2. Scott helped design the 3000 l camera for the OXCART.

SCOVILLE, Herbert, Jr. In February 1962 Scoville became the first Deputy Director for Research, which took over control of the Agency's reconna iss ance programs from the Deputy Director for Plans . Frustrated by the lack of support from the DC! and the other directorates. he re si gned 10 June 1963.

SEABERG, John An aeronautical engineer who was recalled to active duty with the Air Force during the Korean war, Seaberg drafted the first specifications fo: _a high-flying jet reconnaissance aircraft in I 953.

STEVER, H. Guyford A professor of aeronautical engineering at MIT. Stever served on numerous Air Force advisory panels and later became the Air Force 's chief scientist.

STRONG, Philip G. Chief of co llection in the Office of Scientific Intelligence, Strong kept himself well informed on developments in ove rhead reco nnai ssance and anended many Air Force advisory panel meetings as an observer. In 1954 he learned about the Lockheed CL-282 design and passed the information on to Edwin Land 's study group in vestigating US intelligence-gathering capabili ties.

WHEELON, Albert (" Bud '' ) D. Whee!on became the Deputy Director for Science and Tech nology in August 1963 follow ing the reorganizaÂŁion and renam ing of the Deputy Directo r for Research He held this posi tion until September 1966.

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335

APPENDIX C Electronic Devices Carried by the U-2

------~------------------------

From the beginning the U-2 was en visioned as more than a came ra plat fonn. In fact , the U-2 would ultimately carry only five types of photographic equipment but more than 20 different types of electronic devices, some for collecting electronic intelligence (ELINT), others ('"ferret'' equipment) for gathering intelligence on foreign radars. and a few for self-protection--electronic counterme as ures to defeat enemy m issi le -control radars. The various electronic. co untermeas ures and intelligence-gathering systems designed for the U-2 received designations using Ro man nu mera ls-Sys tems l through XXIL The first seve n devices were built by the Ramo-Wooldrid ge firm, now part of the TRW Corporatio n. System-! used S- and X-band ELINT recei ve rs to collect ground-con trolled intercept and air defense signals. Weighing only 7.7 kilograms . this system was aboard all U-2s from 1955 through 1959. System-II. a communications and navigation system. never 路 worked properly and was canceled. System-Ill. a 16-kilogram VHF recorder for communications intelli gence (COMINT), was never used and was transferred to the Navy in 1958. System -IV. a ferre t device that recorded electromagnetic energy in the 150- to 4.000-MHz range was used on 16 missions between 1957 and 1959, when it was given to the Air Force . System-V was simil ar to Sys tem-拢 but covered nine wave bands. The device was so heavy that U- 2s using it could not carry a camera system. System- V was used on on ly three missions and was replaced by the ligh ter weight Syste m- VI that covered the P-, L-, S-, and X-band frequencies and could be used with ei ther the A o r B camera. System- VI was used from 1959 through 1966. The growing need for data on Soviet miss ile developmen t led to a contract wi th the finn of Haller-Raymond-Brown (HRB ) to build a missile-telemetry intercept syste m as quick ly as possible. The resulting device (System-VII} could record up to 12 minutes of data from six simultaneous frequencies . This unit first saw service on 9 June 1959 and was used on another 22 missions during the next year. Followi ng modifications to make System-VII suitable for use by the Navy. the designation was changed to Syste m- v m. Syste m-!X was an electronic-countermeasures ( ECM ) dev tce for generating false-angle in formation in response to X-band radar pulses from surface-to-air missile radars. Also known as the Mark-30. the

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unit was manufactured by the Company. One of these dewas aboard Gary Powers' U-2 when he was shot down. System- X was a modification of the HRB's System- VII that was specially built in 1962 for a mission over the Soviet Union that never took place. Systems-XI through XV were ECM devices used by U-2s overflying China and North Vietnam during the Vietnam war. System- XVI was a passive ELINT collector. System-XVIl was built by HRB-Singer as a result of an October I 963 USIB requirement for the collection of antiballistic-missile (ABM) data from Saryshagan. The system was to be deployed in a lJ-2 that would fly over western China, along the Sino-Soviet border. collecting data on the ABMs being tested at Saryshagan. By the time the unit was completed in 1965, however, the tipoff time before rest launches had been reduced from almost 24 hours to less than an hour, making it impossible to stage U-2 missions in time to collect the dara. In the late 1960s, additional ECM systems were needed to counter the increasing threats posed by more accurate SAMs and higher flying aircraft System-XX was specifically designed to counter the acquisition and guidance radars used by MIG aircrafr, and System-XXll was an infrared jammer to counter air-to-air missiles. System-XXI, a COtvUNT package that replaced the much older System-Ill, was originally developed for the OXCART program and was later adapted for use aboard the follow-on U-2, the U-2R.

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APPENDIX 0

Date

Mission Pilot

Airfield

Unit Payload Route

4 July 1956

2013

Stockman

Wiesbaden

A-2

5 July 1956

2014

Vito

Wiesbaden

A-2

East

East Moscow, Estonia, Latvia, Lithuania, Poland

9 July 1956

2020

Knutson

Wiesbaden

A-2

EasÂŁ Germany, Poland, Minsk, Poland

9July 1956

2021

Overstreec

Wiesbaden

A-2

Czechoslovakia, Vienna, Hungary, L'vov, Kiev, Minsk, Poland

2024

Dunaway

Wiesbaden

A-2

Poland, Kishinev, Kerch', Sevastopol', Simferopol', Odessa. Romania, Hungary

Powers

Adana

A-2

[ran, Caucasus

1956

20 November 1956 4016 18 March 1957

4020

Cherbonneaux

Adana

20 June 1957

6005

Rand

Eielson

Baku, Astara,

00 4

AppendixD

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APPENDIX 0

Date

Mission

Pilot

Airfield

Unit

Payload

Route

22 August 1957

4049

Birkhead

Lahore

A-2

Merket Bazar. Kuldja, Abakan, Krasnoyarsk. Kansk, Sinkiang

22 August 1957

4050

Cherbonneaux

Lahore

A-2

Lake Balkhash. Semipalatinsk, Bam au!, Prokop路 yevsk, Novokuznetsk. Leninogorsk

28 August 1957

4058

Jones

Lahore

A-2

Dushanbe, Tashkent, Tyuratam, Kazalinsk, Aral Sea

10 September 1957 4059

Hall

Adana

A-2

Krasnovodsk. Gur'yev. Astrakhan', Tbilisi

16 September 1957 6008

Baker

Eielson

A-2

Kamchatka Peninsula. Milkovo

13 October 1957

2040

Stockman

Giebe!stadt

A-2

Norway, Finland, Murmansk. Kandalaksha

I March 1958

6011

Crull

A-2

Dal' nerechensk, Khabarovsk. Blagoveshchensk, Belagorsk, Komsomo!sk, Sovetskaya Gavan'

9 July 1959

4!25

Knutson

Tyuratam for launch

December 1959

Robinson

Peshawar

Sputnik

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APPENDIX E

AQUILINE In the early 1960s. there were many problems in obtaining coverage of hostile territory. The U-2 was too vulnerable ro Soviet surface-to-air missiles, as had been demonstrated by losses over the Soviet Union, Cuba. and the People's Republic of China. The OXCART was still under development and even when completed might prove vulnerable to Soviet radars and missiles. Although safe from interception, the newly developed photosatellites could not provide coverage of a desired target on short notice. Because several of the intelligence community's primary targets such as Cuba and the new Soviet radar installation ar Tallinn (Estonia) were not located deep in hostile territory, CIA scientists and engineers began to consider the possibility of using small, unmanned aircraft for aerial reconnaissance. They believed that recent advances in the miniaturization of electronic technology would make possible the development of a reconnaissance vehicle with a very-low-radar cross section and small visual and acoustical signatures. Such a vehicle could reconnoiter an area of interest without the hostile country realizing that it had been overflown. [n mid-1965. David L chief of the Office of Research and Development's Applied Physics Division. and Frank Briglia of the same office working on the concept of a small, inexpensive aircraft that would be about the size of a bird and could carry various for photography, nuclear and ELINT collection. ORD soon formed a the

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============ ___f~9ration Project AQUILINE

for chainsawi

rn 1968 tests on an AQUILINE prototype at Randsburg Wash on the US Navy 's Na val Ordnance Tes t Station at China Lake , California. showed that the aircraft was e xtre me ly diffic ult to see. To ass ist pilots of c hase aircraft in keeping AQU ILI NE in sight. its entire upper surface was painted bright orange : even so. sighting remained diffic ult. The resting process was very hard on AQ UILI NE because ir was recovered by flying it into a net dose to the ground. which almost al ways caused some damage to the wings or propdler. As a result. one

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or more of the aircraft was always being repaired. and eventually three of the five AQUILINE prototypes were destroyed in testing.

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Proiect AXILLARY

AXILLARY While Project AQUILINE was still under development, its chief aerodynamicist, Charles N. Adkins, left the program because he believed that its escalating costs would prevent it from ever producing a deployable aircraft. He wanted to build a small. inexpensive remote-controlled aircraft to test a low-cost lightweight autopilot currently being developed by ORO. Under a $5 ,000 time-and-materials contract with Melpar. Incorporated. Adkins hired a local modd aircraft builder to assemble and modify a standard Hawk-750 glider kit and power it with a rear-mounted engine and pusher propeller. Following a series of successful test flights . Adkins installed a small camera and took a number of aerial phorographs. By this time the effort to build a ' ' Miniature Multi-Purpose Airborne Vehicle ' ' had become kno wn as Project AXILLARY. Melpar, Inc .. received a second contract for $50,000 to install ORO's au topilot in the aircraft, and the projec t managers now began searching fo r a use for their vehicle. The two main poss ibilites were (I) as a short-ran ge reconnaissa nce vehicle for use in a peace-monitoring o r intelligence-gathering syste m and (2 ) as a short-range warhead delivery system. In 1971 the Office of Special Activities evalu a ted A XILLARY fl igh t-te sting and determined that the sm a ll model aircraft was not s uitable for use as a co vert reconnaissance ve hicle because of its large radar c ross sectio n and si gni fica nt accoust ical signatu re . The airc raft 's radar sig nature rnade it potentially usefu l as a weapons syste ms. ho we ver. O RO su.g gested that AXILLARY be equip ped with a radar-homing tin it ! 'w hic h would make iran inex pensive means fo r surface-to-air missile systems in i'lort h Vie tnam. T he Director o f

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343 Defense Research and Engineering, John Foster, liked the and provided DOD funding for ORO to develop two versions of AXILLARY, one with a radar-homer and one with a television reconnaissance package. The radar homing system proved successful as AXILLARY sought out and destroyed a radar during testing at China Lake Naval Air Station. However, the end of US involvement in Vietnam in early 1973 led to the cancellation ot' fll!'ther[)QD and A.XILLJ\RY \Vas placed on the she!(

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347 BIBLIOGRAPHY

Published Works Cited Aart, Dick van der. Aerial Espionage, Secret lmelligence Flights by East and West. Shrewsbury, England: Airlife Publishing, t 985. "AF Cites Red Bomber Progress." At/iation Week, 24 May 1954. p. 14 . .. Alleged Overflight of Soviet Area by American Planes." US Department of Stare Bulletin, voL 36, 28 January 1957, p. 135 . .. Alleged Violations of Soviet Territory: Soviet Note of July 10, I956 with U.S. Reply." US Department of State Bulletin, 30 July I pp. 191 192. Alsop. Stewart The Center. New York: Popular Library, 1968. Ambrose, Stephen E. Eisenhower. Vol. 2, The President. New York: Simon and Schuster, 1984.

Andrew, Christopher. Her ,Hajesty Secret Service: The 1ilaking of the British Intelligence Communit,>: New York: Viking, 1986. 路路Aviation Week Story Spurs Debate on US, Red Airpower Positions." Aviation Week, 30 May 1955, pp. 13-14. Michael R. Mayday: Eisenhower. Khrushchev and the U-2 Affair. New York: Harper & Row. 1986.

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Bibliography

348 William. "Gardner Defends Greater R&D Spending." Aviation Week, 26 September 1955. p. 1-+. Eastman. Ford. "Defense Officials Concede Missile Lag.·· Aviation 9 !959. pp. 26~27. Edwards. Philip K. "The President's Board: 1956-60. lmelligence 13 (Summer I 969): p. 118 (Secret). Eisenhower. Dwight D. Waging Doubleday. 1965.

Studies in

1956-1961. Garden Ciry. NY:

Freedman, Lawrence. US Intelligence and the Sm•iet Strategic Threat. 2nd ed. Princeton: Princeton University Press, 1986. George, A. L

Case Studies of Actual and Alleged Overflights. 1930-1953. Rand Srudy RM-13-+9. Santa Monica: Rand. 1955 (Secret).

The Defector Receprion Center Germany. 1951 to Clandestine Service Historical Series CSHP-41. ClA: History Staff. I 972 (Secret). Hotz. RoberL "'Firing of 900-Mile Russian ~lissile Spurs US Changes." Aviation Week, 20 February I pp. 26-28. ··Russian Air Force Now Gaining in Quality." Aviation Week, 12 March 1956, pp. 286-291 -~-.

"Russian Jet I pp. !2-1

Gains Fast on US ... Aviation

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Joh nson , Clarence L. " Development of the Lockheed S R-7 1 Blackbird." Studies in Intelligence 26 (S ummer 1982): p. 4 (Unclassified). Jo hnson , Clarence L. with Maggie Smith. Kelly: More Than A--l y Sha re of It All. Washingron, DC: Smithsonian Institute Press, 1985. Khrushchev, Nikita S. Khrushchev Remembers: The Last Testament. Boston: Little, Brown , & Co. , 1974. Killian, James R., Jr. Sputnik, Scientists, and Eisenhower: A Memoir of the First Special Assistant to the President for Science and Technology. Cambridge: MlT Press, 1977. Kistiakowsky. George B. A Scientist at the White House. Cambridge: Harvard University Press, 1976. Kleyla, Helen H., and Robert D. O'Hem. History of the Office of Special Activities. DS& T 16 vols. Directorate of Science and Technology Historical Series OSA-1. CIA: DS&T, 1969 (Top Setret Codeword). Lay, James S. " The United States Intelligence Board, 1958-1965 ." CIA Hi story Staff MS-2 (draft), 1974 (Top Secret Codeword). Lic klider, Roy E. " The Missile Gap Controversy." Political Science Quarterly 85 (1970): pp. 600-615.

National Photographic Interpretation Center. VoL I , Antecedents and Early Years. Directorate of Science and Technology Historica l Series NPIC-2. C IA: NPIC, I972 (Secret) - - - . National Photographic Interpretation Center: The Years of Project HTAUTOMAT. 1956-1958. 6 vols . Directorate of Science and Tec hnology Hi storical Series NPfC-3 . CIA: NPIC. 1974 (Secre t) . Miller, Jay. Loc kheed U-2. Aerograph 3. Aust in, Texas: Aerofax, 1983. .'The OXCART Scory." Studies in Intelligence 15 (Winter 1971): pp. 1-34 (Secret).

"Missiles Away." Time. 30 January 1956. pp. 52-55 .

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Se~

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350

"Mystery of the RB -47. ·· News week. 25 Ju ly 1960. pp. 36-37. "Ni ki ta and the RB -47 . ·· Time, 25 Jul y 1960 , pp. 30-3 1. '·Office o f Spec ial Activi ties History. Ap ril 1969 to Phase-Out. " (draft) (CIA : DS&T, 19 74 ), chap. 3. pp. 36-4 2 (Top Secret Codeword ). Pero . Ric hard K. "Message Received- Unfortun atel y." Studies m Intelligence 27 (Winter !983 ): p. 29 (Sec ret). Pocock, Chris. Dragon La dy: Th e Histo ry of the U-2 Spyplane. Shrewsbu ry. En gland : Airlife, 1989. Powers, Francis Gary, with Curt Gemry. Operatio n O verf light. New York: Holt, Rinehart and Wil son. 1970. Powers, Tho mas. The Man Who Kept the Secrets: Richard Helms and the CIA. New York : Alfred A. Knopf. 1979. Prados, John. Presidents · Secret Wars: CIA and Pentagon Covert Operations Since World Wa r II. New York : William Morrow, 1986. - - - . The So viet Estimate: U. S. Intelligence Analysis and Russimz Military Strength. New York: Di al Press, 1982.

Covert Suppo rt to Indonesian Re volutionary ..... ....... . ......... .... ........... ,."''Government, 1958. 2 vo ls. Clandes tine Se rvi ce Hi stori ca l Series. CS HP-53 . C IA: History Staff. 1970 (Secret). '' Red Ai r Force: The Wo rld 's Biggest. " News week, 23 Augu st 1954, pp. 28-33. Riche lson, Jeffrey. American Espionage and the So viet Target. New York: Will iam Morrow, 1987. " Russia Parades Airpower as ·Big Stick· . " At·iation Week. 28 J une 1954, p. !5. Lm•·- Level Technical Reconnaissance ove r Muin land China ( 1955·66). Clandest ine Se rvices Hi sto rica l Program, CS HP-2.348 . CfA: Hisrory Staff. 1972 (Secret). Stanley. Roy M., II. World War II Photo lmelligence. New York: Scribners. 198! .

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Sturm, Thomas A. The USAF

Twenty Years,

1944~1964.

Advisory Board: Its First Washington. DC: USAF Historical

Office, 1967. Twining. Nathan F. Neither Rinehart & Winston, 1966.

nor

New York: Holt,

United States Air Force. Project LINCOLN. BEACON HILL Report:

Problems of Air Force

Intelligence and Reconnaissance.

Massachusetts Institute of Technology, 15 June 1952 (Secret. downgraded to Confidential). United States Congress. Senate. Foreign Relations Committee.

Executive Sessions of the Senate Foreign Relations Committee (Historical Series), vol. 12. 86th Congress. 2nd Session, "Report on the U-2 Incident," 6 March !962 (declassified 1982). United States Congress. Senate. Select Committee to Study Governmental Operations with Respect to Intelligence Activities. Foreign and Military Intelligence. Book I. Washington. DC: US 路 Government Printing Office, 1976. United States Office of Defense Mobilization. Science Advisory Committee. Technological Capabilities Panel. Meeting the Threat of Surprise Attack, 14 February 1955. (Top Secret/Restricted Data, downgraded to Secret). "US Representations to the Soviet Government on C-130 Transport Shot Down by Soviet Fighter Aircraft." US Department of State 23 1959. pp. 262-271

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352 Witze, Claude. "Russians Outpacing US in Air Quality, Twining Warns Congress," Aviation Week, 27 February 1956, pp. 26-28. "Yakovlev Yak-25RM Mandrake," Jane 5 Defence Weekly, voL 3, no. 7, 16 85.

Interview wirh Robert Amory, by Donald E. Welzenbach and Gregory W. Pedlow, Washington, DC 22 April 1987 (Secret). Interview with James G. Baker by Donald E. Washington, DC, 24 April 1985 (Secret).

Welzenbach.

Speech given by Richard Bissell at CfA Headquarters, 12 October 1965 (Top Secret Codeword). Interview with Joseph V. Charyk by Donald E. Welzenbach. Washington, DC, 5 December 1984 (Top Secret Codeword). Interview with former U-2 pilots James Cherbonneaux, Carmine Vito, and Hervey Stockman. by Donald E. Welzenbach, Washington, DC, May 1986 (Secret). Interview with James A. Cunningham, Jr., by Donald E. Welzenbach, Washington, DC, 4 October 1983 (Top Secret Codeword). Interview with Allen F. Donovan del Mar, California, 20 May I

Corona

Donald E.

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Interview with Brig. Gen. Jack C. Ledford, USAF (Ret.), by Gregory W. Pedlow, Washington, DC, 20 February 1987 (Secret). Interview with Richard S. Leghorn by Donald E. Welzenbach, Washington, DC, I 9 I985 Interview with Arthur S. Lundahl and Dino Brugioni by Donald E. Welzenbach, Washington, DC, 14 December 1983 (Top Secret Codeword). Interview with Garrison Norton by Donald E. Washington, DC, 23 May 1983 (Secret).

Welzenbach,

Interview with John Parangosky by Donald E. Welzenbach, 6 March 1986 (Secret). Interview with James Q. Reber by Donald E. Welzenbach and Gregory W. Pedlow, Washington, DC, 21 May 1987 (Secret). Ir1terview with Carmine Vito by Donald E. Welzenbach, Washington, DC, 7 May 1986 (Secret). Interview with John S. Warner, Office of the General Counsel, by Donald E. Welzenbach. Washington, DC, 5 August 1983 (Top Secret Codeword).

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355

A A-1 camera A-2 aircraft 262-263 A-2 camera 53. 77. I00. I04-105. I08 A-3 aircraft 263 A-ll 268. 294 271. 273-274, 277-278. 281. 283-286. 289-292. ::94-297, 299. 302-305. 307-311. 329 Abel. Rudolf 183. 332 Ad Hoc Requiremems Comminee 81. 114. 188-189.332 Adana. Turkey 113

Adk!iis~C!iarr..:s路R

342 Administration (East) Building 42 advanced antiballistic路missile (AB:Vt)

139 aerial cameras 13. 31. 49.329 aerial lenses 327

126. 170. !76, 189 afterburner plume 271 ailerons 47. 69 Air Research and Development Command

5. 8 Air Staff for 154 Air Weather Service 89. 94 air路cooled reactor 239 air-inlet system 291 air.to-air missi!es 285. 336 air-traffic controllers 72-73. 289 Air/Maritime Division (AMDJ 73 aircraft carrier 145. 247, 250 airfields 82. 95-96. lOS. 117. 153. 216. 221. 226. 317 airframe 5. 8. 10. 24. 26. 48. 56, 7 I. 105. !32-133. 248. 259. 274. 279.

286. 289 airframe comractors 259 airspace

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Secret I\10FORPJ Index

356

Albania

Apollo Vrl

140, !57

254

74,

339

Physics Division Allen. Edward L I Almaza Airbase,

AQUATONE

119

40-43, 59, 62, 66, 74, 82, 88, 93, 96, 100, 108, I l3, I 15, !55

altimeters

59-60 altitude I, 4-6. 7, 8-ll. 12, 13-19, 22-26.

33-35, 39, 46-47, 49, 52, 54-55. 59, 61-64, 71-72, 74, 76, 79-80, 84, 87, 89, 93-94, 97, 101. !08, 125. 132. 142, 145, 148-!49, 152, 156-157. 168, 175-179, !85, 207, 217-219, 229. 235, 240-241, 246-247. 251, 254, 259-260. 262, 263, 267, 268. 273, 277, 278-279. 284, 286, 288. 292. 294. 296-297, 304. 312-313.320,330,339,340,343 aluminum

271 Ambon Island

214 American Civil War l Amory. Robert 114 Anderson. Rudolph

210

AQUIL!NE

304, 339-343 Arabs

256 Aral Sea

135 Arbenz, Jacobo

!6 "Archangel- I"

262 262 Area 51.

56. 72. 74-75. 77-78, !30-131. 133. 274, 283-284,286, 291. 303, 305 :~rizona

Arkansas

Andoya. Norway

172 "Angel",

45, 50, 66. 262

arms limitation

147

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357 article 345A 79 article 346 80 article 347

AXILLARY

342 Ayer, Frederick, 1c 14-15. 36, 327

!04

article 349 219 article 354 80 article 357

B model camera

article 360 175, 217 article number 59 articles 20, 59, 99. 216 Ashford, Douglas E. 30 Asia 135. 190. !98, 2IL 216, 22!. 230, 233, 300-30!. 310, 319 Asian Photographic Interpretation 229 aspheric lens

53 ASPIC 229 Aswan Dam 112 atmosphere 278, 25. !52, I atmospheric 147 atomic bomb 19

B-17 bomber 222 B-26 bomber 214 B-36 bomber 22. 50 B-47 bomber 72 B-52 bomber 20, Ill, 291. 312 B-57 bomber 5, 8-9, 13, 15, 24, 35, 72 B-58 bomber 262. 269-270. 273 B-58 "Hustler# bomber 262 8-58A bomber 269 8-588 "Super Hustler'' 262 B-588 bomber 263. 269 B-70 bomber 279. 293 BACKFI:'-1 167 "badlands" 71 Baikal, Lake 128 Baird, Waller

001

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358 BGMARQUE

Baltic Sea

3. 303

222

Baltic states

bhang meter

!04

240

Baltimore, Maryland

6. 9

BIRDWATCHER

235 Bison bomber

20-21. 27, 31, 98. l05. t II

Barents

140,142,

76 Batlin. Alex

66 Bay of

231 Bay of Pigs 191, 197-199, 205 Baykonur, Soviet Union 137 Beacon Hill

!7-19. 2!, 24, 31-32. 331-332 BEACON HILL Report

17. !9, 21. 24 BEACON HILL Study Group

18, 21

Bissell's :-.'arrow-Gauge Airline

72 "black books"

188 "black" contracts

285 BLACK K."'IGHT

126. 134 Black Sea BLACK SHIELD

56, 187 Beerli. Stanley W.

192. 196 Beijing, China (see Peiping. China)

228-229 Bell Aircraft 9 Bell Laboratories

18 "bends" 64

15-16. 30. 39-41. 43-44, 56. 59. 61. 66,69-70. n. n 78.81-82.89. 93.95,100-101.104-106,109-110. 121-!22, 124. 127-128. 135. 139, 148. 154-157, !62, 168. 170, 172. 174, 178-!79, 187. 191 !92. 196. 2!4. 216.224, 259-260, 262-263. 267. 177-278. 283. 285. 286-287. 289. 295. 327. 328-329, 330-33!

85. 126. 133. 144. !53

Beechcraft

Bell

Bissell. Richard M .â&#x20AC;˘ Jr.

Laboratories

301 Blip/Scan Ratio

267-268 BLUE BOOK Board of Inquiry

184

001 00 4

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359 Burke, William

borax 121 Boston. Massachusetts 13. 18. 21. 24. 110, 260 Boston camera 13 Boston 22. 24. Bowles. Chester 225 Brahmaputra Valley 231

5::'. 56.

82 School 42 Briglia. Frank 339 Brinsh and French tleeL> 116 British Guiana 211 British Guiana- Venezuela border 2!1 British overfli!!h! of the Soviet Union 23-24. 164 British Parliament 94. 232 British radar network 94 Brugioni. Dino

135. 137 Budget Bureau of the 267. 308-310 Budget. Director of the 40 Buffalo. New

174

B;elorussia 104, 106

c C model camera 54

ccrz4 cargo 66, l 181, 219 Cabell. Charles P. 30. 36. 43. 88, 101. 112-123. !27. 139, 183. 223. 295. 327, 329 Cairo. Egypt 117, 119 Calcutta. lndia 232 California 9. I 3. 24. 26. 36. 45, 50. 54. 56. 133, 182. 198. 200. 208. 221, 247, 251-252. 254-:!56, 295, 311. 340 California Institute of Technology

16 Cambodia 216. 230. 143 camera lenses 93 camera technicians 78

001 00 4

Approved for

2013/06/25

360 Howard 80, 140 Carter, John H. (Jack)

9-10 Carter, Marshall S.

Chelyabinsk, Soviet Cnion

186, 201, 205, 208-209. 299, 327 Caspian Sea

!76 Cherbonneaux, James

138, 214

126 catheterized 64 cathode-ray tube

267 Caucasus Mountains 179 celestial "fixes"

Tribune

76 Central Asia

135 Central Asian republics

176 Central Intelligence Agency (CIA) 29. 32, 59 Air Force competition

308 air operations 157. 191 General Counsel 44 Inspector General 190 proprietary

"d11mneya 71 China

260. 129 proprietary firm 110,

China LaKe; Lamomra

!29, 222. 260

340

C-2 program

chine

257, 181

277 Chinese Communist nuclear tests

centrifugal force !77 CHALICE !55, 170, 182 Chamoun. Camille

240 Chinese mainland

319. 215, 222. 226 Chmese nuclear reactors

201

361

!52 Convair 262路263, 267路27 284 convective

Clark Airfield, "m""'"'""~ 212 Clark II

94 Cornell Aeronautical LH10rcJtolrv 18, 24路25, 328 Glass Works

comer" 76 War 17

cosmic路ray effects

94 cover officer 89

Columbia Brc>ad<:ast.ing 18 combat aircraft 6, 26. 45 Combined Shipping Adjustment Board

214

Commerce, n ..n,rTm.l'nl of

254 commercial airliners 72 communications 189, 3!1, Communications Satellite 328 COMPASS TRlP

254

273, 284, 3!2

Crabb, Lionel

94 (COMI~T)

Crick, Alan

154 Crick Commiuee

!54 Crimean Peninsula 108

C00 1 9009 4

Approved for Release : 2013/06/25

S~RN Index

362

Cu rtiss -Wright Corporation

.. 1

czechoslo~ak.ia

lOt

D ________________________ D- 2 I aircraft 291 Dalai Lama 216 Dallas. Texas 293 Damage Assessment Team 183 David Clark Company 62 Davis. Saville 18 Dayton. Ohio ~- 8 DC-6 aircraft 341 deep penetration overflights 316, 123 Defector Reception Center (DRCl 1

defectors Defense. Department of 33. 61. 122. 145. 154, 161. 23-l, 236-237 . 239, 267. 292-293. 301-302, 304. 310. 317 Defense. Deputy Secretary of 81, 127, 144. 161 , 188, 207 . 300. 309 Defense. Secretary of 161. 298 Defense Mobilization, Office of 17, 26 Science Advisory Comm itte~ 37 Del Rio, Texas 256. 198 Delra-n camera :!50 denied territory 174, 188. !90

Deputy Director of Central Intelligence (DDC!) 30. 36. 43. 327, 329, 88 , 10! , 122-123. 127, 139, 186-187,201.208-209, 223 Detachment A 94-95, 100- 101. 106. 114. 116. 124- 125. !39- !40. 142-143. 181. 316 Detachment B 113. 116, 120-121, 124-126, 133. !35. 139, 142-143, !52-153, 155-157. 164, 167, 181-182. 187. 316 Dc:tachment C 133-134, 139. 143-144. 152. 157. 182. 211-212. 214-220. 224. 316 Dc:tachment G 133. 181-182. 198-199.211.221-222, 230-233. 243, 248 . 250-251, 254-257 Detachment H 225-226, 228-230. 232-237, 239-241. 243-246, 250-251 ' 255 D.:velopment. Deputy Chief of Staff for 7. II. 17. 35 Development Planning, Office of 12 Development Projects Division (DPD) 157, 191 Development Projects Staff 40.55-56, 132, 157. 191. 212. 331 Dirty-Birds 128, 130. 135 Donovan. Allen F. IS. 21. 24- 26. 29-31 , 35. :!60. 328 Donovan. James 18 3 Dooliule, James H. 61. 167. 328 Douglas Aircraft 339 DRAGON 2 DRAGON LADY 77

drivers 59 drone 29 1. 343 Dryden, Hugh 89. 182 DuBridge, Lee 26-27

Approved for Release: 2013/06/25

Index

363 Dulles. Allen 16-17. 30. 32-37, 39-10,43-44, 56. 60. 73. 76, 80. 82. 86, 88. 93, 95. 97, !05-106. 109-!!1, 117. 120, !24, 127, 154, 161-162. 164-165, 167, 170, !80, !84, 189. 191. 214, 223-224, 260, 263, 295. 3!6-318. 327-328 Dulles. John Foster 20,86.109,1! 122-123,126 dummy corporntions

44 Dunaway, Glendon

E Eannan, l S. 206 earth's atmosphere 278 East Berlin riots of June 1953

16 East Germany 100-IOL 142. 147, 183, 303 Eastern Europe - 2, 84. 88-89. 100-10!. 106. II 0. 123-124, 126-127, !39-140, 142. !44, 304. 316 Eastman Kodak

4. 31-32 eavesdropping

2 EBONY 222 Eden, Amhony 93-95 Edens, Buster 135

159-164. 167-168. 170-172, 180-181, 187, 19!-192, 195. 2!1-212, 214. 22!. 224, 263. 267. 270. 277. 297. 315-317. 322. 3:!8-330 energy pulse indicator electronic countermeasures (ECM) 207. 239. 304. 313.317. 335-336 electronic intelligence (ELINT) 114. 126, 144. 146. 153, 162-163, 175. 182. 215. 242. 244, 303. 335 electronic imercept 126. 317 electronic sensors 292 electronic wariare 300 EUNT collection 142, 339 ELINT emanations 304 ELI!'tl-col!ecrion gear 310 EUNT-co!lection unit (System VI) 170 Emergency Preparedness. Office of 254 engine nacelles 291 engineers 9-10.12.17. 25.43.45.55.61. 71. 255. 260. 269. 286. 339, 343 English Electric Company 5. 23 epoxy resin 277. 289

82 Ericson. Robert J. 80

201

Index

364 FICON

!42

EVEN STEVEN 256 Executive Branch 109 263

F-104 tighter

l0-11, 45, 329 F-106 fighter

270, 284 F-108A Rapier 285

Fairbanks, Alaska

134 ~

Fairchild K-19 aircraft 49 FAN SONG acquisition radar

234 Far East J, 1!0, l 134, 140, 144, !90, 197, 201. 216, 224. 233-234, 242-243. 30!, 316. 320. "Fast Move" Ol1<''rarion''

2!6

22 Field Activities, 192 5412 Committee 188. 226

for

4, !0, 14, 22. 66, 74-75. I08, 124. 146. 177, 182. 201. 214. 312.317, 328-329 tighter conversion 22 Fili airframe plant 105 filters 277, 288<.!89 film L 31-32.49. 51-53, 55. 60. 100. 108, 114-1 L5. 119-121, 145. 153. 179. 209. 215, 218. 221-222. 226. 235-236, 239, 241. 247, 249-250. 254, 281-282,

306. 310-31!. 316. 330 film processing 60,121.247 film-transport system 55 Firewel Company

63 First Weather Reconnaissance Squadron. Provisional ( WRSP- f) 94 Fischer. C. W. 309

FISH 250. 263.

FISH HAWK :!49-250 Donald D.

289 FUPTDP

Approved for

2013/06/25

Index

365 Foilow路On Group (FOG)

G2A aircraft

77 Ford Foundation 15 Foreign Intelligence Advisory Board

192. 226. 292, 302, JJO forest fire detectors

238

263 Galbraith, John Kenneth

23!-232 Gardner. Trevor N.

II. !3-!5. 26-27. 32. 36, 40. 66, 81. 99,327.329.331 Gates, Thomas

!64

Formosa

305 (See also Taiwan) Fort Worth. Texas 50 40 Committee

188. 257 forward processing center 212 Foster. John 141

Franco-Prussian War I Frankfurt, Germany

2 Free Europe Committee

88 French atomic test area 250 French Indochina

222

Gaza Strip 114

Geary. Leo P.

61. 66. 7!. 73路74, 78, 152, 186, 196, 288, 329 General Dynamics

312 General Electric 173/GE-3 II General Tire and Rubber Company 329 GENETRIX

84-85, 87-88 Geneva, Switzerland

96, 147, !59 Geneva Conference on Surprise Anack

!59 Geneva summit conference

96 geological survey 254-255 German Luftwaffe

22 German scientists

French nuClear developments 249 French Polynesia

249 r-n,ann~n

Incident

Gettysburg. Pennsylvania

120 Gibbs, Jack A.

61, 259-260 Giebelstadt Airbase, West

95, 124. 140 Roswell

207-208 Keith

- -- -

C00 1 90094

·---·-· ··

Approved for Release: 2013/06/25

Secre~ Index

...........

366

Goering , Herma nn 66 Goldmark. Peter C. 18 golf barts 50 Goodpaster. Andrew J. 89. 97. 100. 105-1 06. 109. 120. 126 128. 1-14. 146. 167. 172. 187. 329 Grace. Frank G. 80 GRANDSLAM 170. 17:!. 174 -175 Granger Company 336 GRC - 127 205 Gn:at Britain 3. 7, 23.93-95.112-113.115.117. 120. 153- 156 . 18 !. 303. 3 19 Air Ministry 94. 155 counterintelligence OJXrati ve

H ca mera

2+1. 247. 253 . 256. 282 Hagerstown. :VIaryland 9

Haiphong Harbor

247 Halaby. Najeeb E. 289 Hall. Wiliam 117. I ! 9. 1-13 Halkr-Ra ymond -Brown ( HRBl 335 "handing o ff'

f" ... ... . .JH .. ----- ---

queen·· ·

L'fliiiger 175 Harva rd Un ivers ity 18. 21 -22. 29. 50-51. 3::!7. 129 Harvard College Observatory 21 Hawk-750 glider kit 342 haze filters 105 HBJARGON 175 - 176 HBJGO 176 heavy water 19 Helms. Ri chard M . 253. 256. 304-305. 309-J I 0. 329 HEN HOUSE 168 HEN ROOST installations 168 Hener. C hristian 127. 163 "hid ing in the OJXn "

Qd.

---Grey houii(filus 289 Groom lake 56. 66. 133 Groton 15 ground resolut ion 281 ·282. 250 Guatemala !57 "guided democracy " 2 12 Gu lf Coast 254 Gulf of Fin land 142 Gulf of Tonkin Resolu tion 231 gust control

GUSTO

274

55 high-acuity cameras 2 !. 50-51. 327 high-altitude air sampl ing (HASP ) 219 high -altitude aircraft 4. 8. 16. ::!4. 59. 148. 30-1

Approved for Release: 2013/06/25

Approved for

2013/06/25

Index 367

22 high-altitude nh<'t"''"'"h I, 55, high-altitude nt1<1tn'"""'"m 7 high-altitude reconnaissance I, 4-5. 8-9, 13-14. 17. !9, 22-25, 33-34. 39, 49. 52, 55, 254, 262. 292, 312. 330 high-altitude weather plane 178 high-impact plastics 313 high-resolution cameras 4 high-resolution infrared scanner 238 high-speed buffet 76 high-speed reconnaissance aircraft 262-263, 270 HIGH WIRE 164 Hilsman, Roger

209 Hitchcock. Alfred 29 Hokkaido. Japan 4

Holcomb. William 285 Hollywood, California 29 Hong

2 Hoover, Herbert. Jr. 124 horizontal stabilizers

HRB-Singer 336 HTAUTOMAT 83, !!5,331 HTNAMABLE lf0-!11 human intelligence sources

2 Hungarian uprising 123 Hungary 101, 123 Hurricane Baseline 254 Hvcon Manufacturing ' 13, 50. 252 ~ hydraulic ftuid 279 hydraulic pump 279 hydrogen bomb 19-20, 242 hydrogen weapons 164 hydrogen-powered aircraft 263 hydrologists 254

I IBM CPC (card-programmed calculator} 52 IDEALIST 182. 210. 234, 303 IDEALIST U-2 303 lgarka, Soviet Union

001

Approved for Release: 2013/06/25

Index

368 intercept 87. 108. 124, 1::!6-127, 142, 148. 162. 168. I !74. 176-177, 259.

lncirltk Airbase. Turkey ! 13. 18 India

148. 231-232.

247, 3!9

Indian Parliament

232 Indian Springs. Nevada 274. 130. 132 Indonesia

285. 31

!37. 159 Interior. Department of the

254

211-212.214.319 lndor.esian Air Force

international date line

134

21:! inertial

gUJu'~'""'

systems

International

3!3

inflatable aircraft

international law

262

110

c:~mera

infrared

interrogation

2-3. 183. 241

282 infrared jammer

336 infrared

335

aircraft 93. 109, 124. !48, 176 intercontinental ballistic missile "'"''('f'r1tnr

sc:~nner

238-239 inland waterways

intruder 109 "invisible" 18 ion cloud

300

82 instant-film camera

ionosphere

!75

330 collection of

16. 31-32. 80-81. 142. 146. 153. 162. 170, 182. 189. 211. 245. :!53. 256.282.300.303. 310.315. 319. 322. 333. 336. 339 and Research. Bureau of

209 community

2. 20. 33. 81. l 160. 164170.1 L 190. 196, 232路233. 254, 298. 303路304. 322. 339

!ran

124. 133. 189

Iraq 133. 153 Iron Curtain

I. I ISINGLASS 1:! [sle of Pines

205

93. 95. I! I. 126. I46

001

4 Approved for Release: 2013/06/25

369

1~3

K-21 framing cameras

(Operations) 189 175 power !52 jamming devices

300 Jammu and Kashmir 231 Japanese airspace 4

jet stream 94, 145 jet-propelled glider II, 25 Johnson, Clarence L. (Kelly) 10-12, 13-14, 17, 24-26, 29-31, 34-36. 43-48, 50, 54, 56-57. 59. 64. 66-70, 76, 108, 130. 132. 149. 179, 185. 196, 247-248. 251. 262-263, 268, 271. 274, 277-279, 281, 284, 289, 293-297, 320. 329 Johnson. Lyndon B. 195. 236-237, 243. 293-295. 302. 304-305, 310-31 I. 332 Joint Chiefs of Staff (JCS) !22. 124, 126, 161, 187-190, 223. 234, 302 154 Joint Priorities Committee !54

49 K-38 camera 50-51. 53 Kadena Airbase, Okinawa, Japan 301 Kaliningrad missile plant 105 Kamchatka Peninsula 128, 134, !97 Kandalaksha, Soviet Union 176 Kapustin Yar, Soviet Union 16. 23-24. !09. 139, 143. 164 Kara Sea 142 Kazakh language

135 Kazakhstan !35 Kazan', Soviet Union 167 KC-135 tankers 71. 199 KED LOCK 285 "Kelly's Angel" 66 KEMPSTER

300 Kennedy, John E 186. 191-192, 195-196. 198. 207-208, 210. 225, 229, 232. 235, 292~293, 297-298, 330

Approved for Release: 2013/06/25

Index

370 Khimki

nx,""'路-c''"'"'" plant

Kollman Instrument Lumuanv

105

Khrushchev, Nikita 94, 96, 100-101, 147, 160, !63-164, 168, 179-180, 299

Province 235

Kiangsu Province 229 KICK OFF !98

Koon, Ralph E. 79

Korea. demilitarized zone (DMZ) 305 (See also North Korea) Kotlas, Soviet Union !72 Jens Otto

299 Kratt, Jacob

Kickapoo Joy Juice 45

Kiefer, Eugene P. 7, 9, II, 260, 330 Killian. James R.

65, 79, 116

Kremlin 123

27, 29-30, 33-34, 89, 100, !9! 192. 263, 292. 330

226

KINGRSH

Soviet Union 190

Kirov, Soviet Union tn.路 r76 Kirtland AFB 79

Kissinger, Henry 256 Kistiakowsky, George

164 KWCORK 113 KWEXTRA-00

59 KWGLITIER-00

59 Kyshtym, Soviet Union 176

171

Klein, Burton ll

Klyuchi. Soviet Union

!34, 143 L'il Abner 47

Approved for Release: 2013/06/25

Index 371

Land, Edwin H. (Din} 18, 21, 25, 29-34, 36, 80-81. 89, 96, 100, 110, !9!-192, 260, 262-263. 269-271. 292, 307, 330, 332-333 Land Panel 37 Langley, Virginia 43, !92, 306, Langley AFB. Virginia 23 Laos 216, 221. 231, 233 Las Vegas, Nevada 284 Latham, Allen. Jr. 29 Latvia 303

Ledford. Jack C. 207. 288, 297 Leghorn, Richard S. .. 4-8. 18. 23. 110. 330 LeMay, Curtis E. 11-12, 14,60 "Lemon-Drop Kid" 124 Lend-Lease 7

Leningrad, Soviet Union 104-106, 109, 142, 298. 303 lens !. 18, 21-22. 30. 49-55, 93, 108. 250. 247, 281-282. 321,

film LINCOLN 18 Lindsey Air Force Base. Wiesbaden. Wesc Germany 80 liquid-fueled missiles 161, 317 lithium deureride 19 Lithuania 303 Little, Arthur D., fnc. 29 Little Quemoy 215 Lloyd, Selwyn 93 Lockheed Aircraft Corporation 9, 24, 329 Lockheed Day Fighter 14 Lockheed mechanics 66, 130, 225 London School of Economics 15 LONG GREEN 198 long-range bombers 20, 81. 98-99, 316 LONG SHAFT 245

254 Lovelace, W lll 62. 74 Lovelace Foundation for Medical Education

Approved

Release: 2013/06/25

Index 372

Luna 2 rocket 163 Lundahl. Arthur C. 82, !14-115. 117, 119, 12[. l35, 142, 154, 191, 209. 241, 331

Manin. Glenn L, Aircraft Corporation 5. 8-9, 24, 270 Massachusetts Institute of Technology (MlT) 4. 15, 18. 27, 30. 1!0, !29-130, 327. 330, 332-333 Matomic '"''"''""'" 42. 104 MATS

M Building 83 M-I 2 aircraft 291 M-!95 aircraft 9 MacArthur. John 167 Macdonald, Duncan E. 22, 154-155 Macmillan, Harold 155-156. 164. 167, !87 Malaya Sazanka. Soviet Union 144 Malinovsky, Rodion

.!6Q Manchuria 229, 233, 237 Mandrake 148 Manhattan Project 329 Manila, Philippines 311 manned space program 62 March AFB. California 75 Mark-30

Matsu Islands 229 May Day 20, 176, 19!. !95 MC-2 and MC-3 partial-pressure suits

64 McConaughy, Walter P. 257 McCone. John A. 184-186, 192. 195, 197, 201. 206-207, 209, 232-234, 236-238, 240, 292-294, 296, 298, 300. 327, 331 McCoy, Frederick 95 McCullough Corporation 339 McDonnell Aircraft 312 McElroy, Neil 146, 16!-162 McFadden. William 54 McMahon. John N. 186 McNamara, Robert 229, 234, 236, 238. 253, 285, 292-293, 298, 300-301 mechanical fuel totalizer/counters

4 Approved for Release: 2013/06/25

Sf!el 6l NOIPQRN _

Index

373 moon

93, !54 Michigan, University of, School of Aeronautics 329 microwave reconnaissance 19 Middle Ease overflights 1!4, 116 MiG aircraft 336 MiG-!5 108, !48 MiG-17 5, 108, 148 MiG-19 148 MiG-21 148, 237, 244 Milit:ary Adviser to the President !88 Mi!it:ary Air Transport Service 72

MILL TOWN 2!6 Miller, Stewart E. 39-40. 55-56, 33 I ,;million-dollar" photography Ill miniaturization 339 mirrors

163 Morot:ai 214 Moscow. Soviet Union 3. 20. 85, 94, IOL 105-106, 109, 124, 143, 145, 160. 167, 177. 179, 3!8 MUDLARK 178

muhiengine aircraft 12, 24-25 multiple sensors

22. Mururoa Atoll 250 Myasishchev-4 (see Bison bomber)

N Nagy, fmre 123 Nanking. China 228 Narcotics. Bureau of 254-255 Nasser, Gamal Abdel I 12. 153 National Advisory Committee on Aeronautics 89,94 National Aeronautics and Space Agency (NASA) 178-179, 254 Museum National Air &:

Approved for Release: 2013/06/25

Index

374 National Security Council ""'o"'l>"'''"" Directive (NSCID)

19! Nationalist China

319, 215, 224. 226. 229, 236 Nationalist Chinese

201, 205, 222-226, 229-230, 234-237, 239-240, 243, 245-246, 253, 257' 3! 9 Air Force

223. 225 insignia

225

9th Tactical Air Force

330 nitrogen

64 Nixon, Richard M.

245-246, 256-257, 333 Nobel Prize

332 North American Air Defense Command (NORAD)

289 North Atlantic Treaty Organization {NATO)

pilots

20. 329, 87. 148, 172

319, 223, 230, 235, 243, 246, 253

radars

U-2 205, 223-224, 229. 246 Navajo missile

22 Naval Air Station at Atsugi, Japan

134 naval quarantine

210 Nehru, Jawaharlal

231:233 Nelson. Norman

68 0/evada

56-57,341, 113,130-13!, 133. !49, 182. 241, 274, 283. 286, 290. 295, 297, 302-303, 311

87 North Island Naval Base, California

248 North Korea

4, 233. 237, 242, 307 North Vietnam 190. 22!-222, 230-23!. 233, 243,

246-247, 30 l. 304-307, 31 I. 336, 342 North-East Frontier Agency (NEFA)

231 Northrop Aviation

259 Norton, Garrison

!4-15, 31. 70, 260, 33! Norwalk. Connecticut

Nevada Proving Ground

56. 24! New Delhi, India

232 Ngo Dinh Diem

230 GIRL

Dame

Approved for Release: 2013/06/25

Index

375 nuclear fireball 240 nuclear resonance 332 nuclear strike 292 nuclear testing moratorium 317 nuclear tests 133.147.240 nuclear weapons 2. 19-20. 99. 147. 226. 238. 240. 317

0 OARF!SH

44 O'Donnell, Emmett (Rosy)

路 oofiquepncitogr.lpny 路 .135,189,244

Optical Research 21-22 optical order-of-battle 82. 134. 322 "Oscar-Sierra" unit 234

241 Overhage, Carl F. P. 18, 21, 331 overhead photography 82, 87. 172, 237-238 overhead reconnaissance missions 188 Overstreet. Carl K. 100

OXCART 61. 73, 157, 191, 236. 238. 252-253. 259, 274, 277-313. 320-322. 327-333. 336, 339 oxygenation 62

Offshore Islands Crisis

p OILSTONE 60路61 Old Executive Office Building 27 OLIVE HARVEST 257 Omaha, Nebraska 60 camera

P-38 fighter 10. 329 P-40 P-5 I Mustang 214

Approved for Release 2013/06/25

Index

376

Paksane. 231 Palmdale, California

3I I panoramic-type framing camera 53 Paradise Ranch 57, 66 PARAMOUNT Committee 114, l 16, 120 Parangosky, John 274, 288. 296, 309, 331 "parasite" aircraft 263 Paris Summit 172. 181-182 Pasadena, California

13. 50, 252 Pathet Lao

221 PB4 Y aircraft

222 Pearl Harbor 322 Pearson. Drew 299 Peenemunde rocker project

2 Peiping. China 228-229 Pellegrini. Joseph J,

nuclear weapons establishment 226 Shuangchengzi missile-rest range 235 76 Perkin, Richard S. I8, 31, 50-52, 281-282, 311. 332-333 Perkin-Elmer Company 18, 31, I Perkin-Elmer tracking camera 52 Perkins. Courtland D

260 Personnel (USAF). Deputy Chief of Staff for

74 Peshawar. Pakistan 164, 167-168, 172, 174-176 Pftoio~Iiiielllgence

Division

(PlD)

82. 100. 135 photographic chemicals 121

Photographic Evaluation of Information on Cuba 200 photographic resolution 281 phocoimerpreters 83. 108. Ill. 114-! 16. 120-12!. 135. !38, !53. 172. 191, 198.209.211. 216, 221. 236. 303. 307 photomapping I, 232 photoreconnaissance I, 4-5, 7, 22

7, 9. l

!3-14, 39. 78-79, 238

Liberation Army (PLA}

215

photosatellite 270, 313, 327. 330, !57 Phouma, Souvanna

22! PI D's

001 00 4

Approved for

2013/06/25

Index 377

Plans. Directorate of 73, 81. 157, !97, 211. 287 Plesersk. Soviet Union 176 Poland !00-lOl, 104, 110, 123, 145, 303 filters Polaroid Corporation 18. 24. 29 POLECAT 221 Polish Ambassador to the US !09 Polyarny Ural !72 polygraph examination 185 Pope. Allen L 214-215 poppy fields 254 Port Said, Egypt 120 Portsmouth Harbor 94 potassium cyanide

66. 125 powered glider 14, 25. 339 Powers. Francis Gary 88, 117, 124, 174-178. 181-187. 190-191. 195, 197, 201. 219, 221. 224. 252. 316,322.332.336 Poznan, Poland

!04

President's Board of Consultants on Activities !67, 170. 190. 192. 328. Presidenr 's Advisory Board 37 President's lmelligence Checklist 201 President's Science Advisory Committee 37 pressure suits 64, 247 pressurized ''spacesuit''

63 Prettyman. E. Barren 184-185 Prettyman Board !85 Princeton University 29 processing and mrerpretation centers 115 Project Director 61. 82. 329 Project Officer. AFCIG-5 61

Project Staff 40--B. 56. 72-73. 82. 89, 170. 299 Project Three 27. 29-34, 327 propaganda 88. 160. 162. 183. 186. 317 Pryor, Frederick 183

PR3 aircraft 5 Pueblo

242, Puerto Rico

Approved for Release: 2013/06/25

Index

378 Pyroccram

radar signature

268, 271

341-342 radar technology

7 radar-absorbing

Ill. 260 radar-deflecting

Quarles. Donald

81, 127, 144-!45, !6! 162, 263, 267 Quarters Eye

42 quartz glass window

282 Que Building 83, !II Quemoy

215, 229 QUICK KJCK

216 quick-reaction capability

301, 313

260 radar-homing unit

342 Radford, Arthur W

122-!24. 126 Radhakrishnan, Savepalli

232 Radiation Laboratories

330 RADINT

189 radio

2. 7, 19, 75, 87. 175-176, 186. 268, 289, 332

RAINBOW Ill. !29-130, 259 Ramenskoye, Soviet Union 20, !05 Ramey AFB. Pueno Rico

Raborn, William F.â&#x20AC;˘ Jr.

ramjet-powered

240, 301, 332 radar

3, 7, 15. 19, 23. ' 82, 87. 94, 97, 10!. 104-106. 110-111, 123, 128-130, 132-134. 139, 142, 144. !48, 168, 175-176, 178. 197, 211.215,230,234-237.239,241-243. 247, 257, 259-260. 263, 267-271. 273-274, 277.289,294,300,303-307, 310-31!, 317, 331-332, 335-336, 339, 341-342

211 262-263, 268. 291 Ramo- Wooldridge firm

335 RAND Corporation

20, 26, 85 Randolph AFB, Texas

73 Randsburg Wash

340 Ray, Walter

!28

302

- -- - - - -- - -------· ··-

C00 1 900 9 4

Approved for Release : 2013/06/25

______________s__e~ Index

379 RB -58 aircraft 22 Reber. James 81. 114- 115. 154. 332 reconnaissance 1-9, 12- 19. 21-25 . 27, 30-37. 39. 41 , 43. 46, 49. 52. 55, 59, 61 -62, 66. 80. 84, 94. 96. 98. 109. 113. 115-116. 11 9. 122. 126-127. 133. 153-154. 161-162. 188-1 93, 196-1 97. 201.205-206.208. 210-212. 216, 222-223. 226. 228, 230-233. 240, 249, 253-254. 260. 262-263. 267-268. 270.287, 29!-292, 295, 297-299,301 . 303-304,308-309,311-313,319-322. 327-331. 333. 339, 341-344 reconnaissance ai rcraft compet ition 9 reconnaissance drones 301 reconnaissance satellite project 161 "reconnaissance strike" 295 Recon naissance Systems Branch 4

records. altitude 302 records, s):)eed 302 RED DOT 254 reflecting cube 281 reftecti ve system

I 1

ruae-ncrur. LouiS N": 18 Ridenour Associates, fnc. 18 Ritland. Osmond 56, 61, 70. 78 ROBIN 23 ROBIN HOOD 211 Robinson. Robert 164 rocket planes 60 rocker-powered aircraft 312 Rodgers. Franklin A. 129, 267-268, 274, 332 Rodgers · Effect 267 Rolls- Royce Avon- 109 engines 5. 23 Romania 101 Root, L Eugene 9, 24 Rose. Wilburn S. ---·--·- 40.L~g_Q_ __ ---• ··-•

···-····--·-··- -

55 refue ling 114, 198-200.231,237 ,241 , 302, 306. 308 refugees 2

Republic RF-84 F Thunderflash 22 Research. Directorate of 192, 287 Research and Development, Director of 66 Research and Reports (ORR), Office of 21. 8 1, 237 Returnee Exploitation Group (REG ) 2 Revol utionary Council 212

···-··---···· ·· ..

RS-7 1 295 Ruseckas, Joseph 63 Rusk. Dean 183, 20 l. 209. 236. 293. 304. 307

Approved for Release : 2013i06/25

001 00 4 Approved for Release: 2013/06/25

380

Ru:;sell. Richard B.

s S-band radar 87 sailplane I 0- I I • 24-26. 4 7 Sakhalin Island 10! Saltonsta!l. Leverett

88 SAM site 177. 205. 306 San Crisrobal. Cuba 206-207' 209 California

Santa

Barl:iiira0i annel

254 Santa Clara Airfidd. Cuba 201 Saratov Airfield. Soviet Union 164

systems satellite "'"""''r~•rmv 87.

Schriever, Bernard A 7, I I Schultze, Charles L 309 Science and Directorate of 193. 287, 328 Science and to the President for 37 Scientific Advisory Board 17. 23 Scientific Advisory Committee 17, 89, 332 Scientific Institute (SEI) 110-11!. 129. 267,274.331-332 Scientific Intelligence (OSI). Office of 14, 21, 39, 81, 97. 33L 333 SCOPE COTTON 310 SCOPE CRANE 242 SCOPE LOGIC 303 SCOPE SAINT

255 SCOPE SAINT-I

255 SCOPE SAINT-II

255 SCOPE SHIELD 246-247 Scott. Roderick M. 51. 53. 281. 333 Scoville. Herbert 207. 287. 289. 333 SCR<!70 radar 7

222

001 0094

Approved for Release 2013/06/25

381

27' 40-41, 43, 55, 59-60, 72. 81' 94, I !2, !25, !27, 140, !6[, !67, !85, 187-188, 191. 197, 201, 209, 212, 218, 221-222. 224, 236, 256, 273,283-284,294,318,327 Security, Office of 59, 112, 222 Semipalatinsk, Soviet L'nion 128. 138-!39, 147, 168 SENSINT--Sensitive Intelligence 3 sensors 1!, 22.241,292,310 Seventh Air Division 89 Severodvinsk. Soviet Union 172, 176 Shanghai, China 222, 228. 242 sheep-dipping 74 Shell Oil Company 62. 328 shellfish toxin 125 Shelton. William -- 125, 176 shock wave 290-291 short-range reconnaissance vehicle 342 show trial 183 Shuangchengzi, China 226, 228. 235 shutter assemblies 53 Siberia Sichuan. China

Sino-Indian border 231-233. 319 Sino-Soviet border 336 "Skonk Works" 45 Skunk Works 45, 71, 132, 251. 26L 273-274

SKYLARK 299 Smithsonian Institution 55 "snap-up" 148 Snark missiles 22 Snider, Sammy V. C 138 snowmelt 254 SOFT' TOUCH 135. 139, 143 software algorithms 52 solar cells 240 solid-fueled missiles !61. 317 sound barrier 289 SOlJTH GATE 216 South Vietnam 230-231. 243. I, 305

COOl 00 4

Approved for Release: 2013/06/25

Index 382

Soviet Union 1-3.4-7. 14-27. 31. 39, 65. 8!-89. 93-10!. 104-106. 108-112. 120. 122-124. 126-130, 133-!35. I 140. 142-149. 15:!-157, 159-165. 167-168. 170-17:!. 174-183. 186-187, 189. 195-197. 200-201. 205-206. 209-211. 215. 219. 221. 225. 232. 237. 247, 254. 259. 294, 297-299, 301. 303-304. 312. 315-320. 32:2. 3:29-330. 33:2. 335-336. 339. 341. 344 in Cuba I air defense system 2. 3, 108. 168. 170. 317 air power of the 20 air show 98 aromic energy program 317 bomber 21. Ill. 167. 317 borders 123, 127. 143 diplomatic protests 315 .. electronic defenses 317 lighters 3. 5, 23, 26. 127. 144 G-class ballisric-missi le submarine 237

missile and nuclear programs

128. missile rest 16. ::!3. 143. overflight operation 110

Protest Note 109 radar coverage 106 radars 3. 1. 15. 97. 130. 134. 168. l 259. 339 rail network 167 strategic capabilities 2. !9 Supreme Soviet !79 surface-to-air missile (SA:V1) 177. 168. 304 surprise anack 19. 26-27, 89. !47, 159. 329-330 Soviet-Finnish border 303. 142 Soviet-Iranian border 124. 162-163. !68 Special Activities. Director of 193 Special Activities (OSA). Office of 43. !92-193. 207. 234~235. 242. 247. 252. 257. 288. 296-297, 299. 303. 312. 328. 341-342. 344 Assistant for National Security Affairs !88 Special Assistant to the DCI 40 "special" missions I

Approved for

2013/06/25

-~ Index

383 SR-7!

Suez Canal 295, 302, 308-31 !, 321

SS4 (SHYSTER) MRBM 206 SS-6 fCBM IM l6'i

1:"11

'"'2

ll2-ll4, 1!7, 120,256

Suez Canal, Israeli-British-French attack on 116

Suez Canal Company 112-113 Suez Crisis 152

steel 277. 280

Stassen, Harold 330

Srate Departmem 81. 95, 10!. 146, !54, 163, 179, 186, !96-197, 212, 224-225, 229, 243, 249

Sukamo, Achmed 212, 215 Sulawesi (Celebes)

"stealth" research

212

313

Sul!i van. Dennis

stereo camera 281. 252 stereoscopic lenses

307

Sumatra 212 SUN S?OT

250

Steuart Building

171

Super Snooper 132 supersonic designs

83, Ill. 1!4

STEVER 260. 333

Stockman, Hervey

260

supersonic interceptor

65,JU4-l05

STPOLLY

285

222, 224, 240

Strategic Air Command (SAC) ll, 14, 17, 20. 26, 42, 60, 74-76, 78, 89, 93, 95, 198, 201, 207-210, 299, 230

meteorologists 42 strategic bombing

supersonic technology 292-293 Suppor1, Directorate of 40, 83

surface-to-air missile (SA-2) sites 20!

surface-to-air missiles 257, 299, 301. 303, 339

surface-to-surface missiles 205-206, 209. 304. 306

Sverdlovsk, Soviet Union 302, 304, 313.

172.

179, 185

......,,.-... Stuart !61

001 0094

Approved for

2013/06/25

Secret NOFORr~ Index

384

335 System-HI 335-336

System-IV 335

System-V 126. 215. 335

System-VI 335. !75 335-336

System- VIII 335

System- IX

tactical reconnaissance 9. 25. 115. !53 TAG BOARD 291 Tahiti 250

tailless subsonic aircraft 263 Taiwan 215-216. 222.224-225. 229. 233, 236-237. 239, 241-243. 246. 251 Taiwan Strait 229 Ta Khli. AFB. Thailand

335

System-IXB device 175

HaroiaJ.:.

System- X 256. 336

System-Xll units 234

System-XIII

13-14. 36 TALL KING 294 Tallinn. Estonia

234. 236-237. 239

System-XV! 336

System-XV!t 336

System-XX 336

System-XXI 336

System-XX!! 336

System-XXIV 256

fiisilkenf. Sov!ei Union 176 TASS 137 Tatar Strait 144 Taylor, Ma.'{well 188 TCP Technical Services Division ITSD) 66. !25

4 Approved for

2013/06/25

~~~~~~~~ Index 385 television reconnaissance 343 Tennessee 78, 238

test ban 147 Tet offensive 243 Texas Instruments Corporation 238, 282

Third World 2! I three-camera trimetrogon unit 52 three-dimensional movies

29 3000 l camera 333 303 Committee

7, 52-53. 87. 97, 106, 128-129. l++. !70. 176. 178, 234. 259, 263. 267-268. 303. 307, 343 radars 267 Trans-Siberian Railroad l++ rr~n<r.nrt aircraft 45. 66 traveling-wave tube (T\V'T) 236

Tripartite Declaration. 1950 117 tropopause !52 Truman administration 17 TRW Corporation J35 Tuamotu

249

243, 257, 301-302, 304, 307 Thule, Greenland 172 Tibet 157. 2!6. 219, 232

Ttme

"Tuesday lunch" 305 Tukey. John W.

29 turbojet engine 8. ll. 262. 268. 343

99 TIME STEP 172, 174 Titan ICBM

Detachment nFm

160 titanium alloy 271 Titanium Metals 280 TOKEN

romc~r~tion

13 Nathan â&#x20AC;˘ 86. 88, 96, 99. 139, 161. 165

127,

00 4

Approved for Release: 201

Secret NOFOF\1\1

Index

386

Tyuratam, Soviet Union 135, 137-138, 160, 163-165. 167-168, 171 172,176

u 66 316 45, 47, 75, 164, 280, 284, 291 bailout experiments 64 bases 93 bicycle-type landing gear 47 blue-black color 149 brakes 69 canopy 80. !49, 177 cockpit II. 63-64, 79, 125. 283. 292. 296 COS(

34. 124, 149, 250-252. 263, 269, 273, 280. 285-286, 309, 322. 341-342 cover story 60. 85. 89-90, 94, 99, 132, 156. 178-180. 182, 207-208, 216. 224, 295 coverage 316 deadstick landing 79

flameout 71, 78-79, 131. 198. 229 flight plans 82. 177 flights approval process 187-188, 226, 301 foreign pilots 73-74, 321 fuel 5, 23, 47, 61-62,68, 76. 133. !61. 175, 199, 218-219. 231. 235. 241. 247-248. 271, 274, 277-278, :!83-284, 286. 288, 302, 3 !3, 340 fuel consumption 68, 219 fuel gauge 68. 219, 302 fuselage 10. 24, 47, !30. 248. 251, 270, 277, 286 inspection procedures 297 landing gear 10-12. !5. 47-48, 69. 89, 248 low-speed stall 76 maiden flight 66, 288 mission 1104 i 14 mission 1105 114 mission 13 ! 4 117 mission 2003 100 mission 2009 101

001 00

Approved for Release: 2013/06/25

Sec~RN lnd~ 387

Readiness

mission

108 mission 2029

124 mission 3086

200 mission 200 mission 201 mission 205 mission 205 mission 205 mission 206 mission 206 mission 124 mission 124 mission 126 mission 133 mission 175 mission 168 mission 1-+-4 mission 199 mission 60 mission 78

3088 3089 3091 3093 3095 3098 3 !00

40 16

.1.0 I 8 4019 4030 4154 4155 60 II length

programmers

79 overflights

6. 32, 62. 74. 76-77. 84-86, 88-89, 94-98, 100-101. 104-106. 108-1 I I. 114, 116. 122-128. 135. 138-1-l.O. !42-143, 146, 148, 152, 154-157, 159, 161-165, 167-168, 170, 172, 180-181. 195-198. 200-201, 205-206. 208. 210-21 I. 219. 222-226. 228-237. 239-240. 242-244. 249, 253. 257. 259. 294. 297-30!, 310. 315-317. 318-320. 322

paint pt:nalty

149 payload 262. 8, II. 50. 54. 340, 87, 145, 152 peripheml missions 189. 206. 244. 246 phaseout

257, 310 pilot fatigue !99 pilot hypoxia 80 pilot life-support system 64 pilot selection 60, 283 pilot-survival gear 62 pilot training program 75 pilot urination 64

Approved for Release: 2013/06/25

Index

388

projects 39-路+0. 4~-44. 56. 59. 61-6~. 74. 81-8~. 88-89.97. 153-155. 157. 186. 257. 316. 3~7-331

UPWIND

stalls 80 w.H section 47. 76 taxi trials 68-69 training 302 vertical stabilizers 277. 343

303 Urals

22. 163 ur.mium gaseous-diffusion plant

139 uranium -processing faci !ity

138 US Air A!tache in Moscow 177 US Air Force. Secretarv of the II. 32. 78. 81. 3.27-329 US Air Force Air Weather Service

vulnerabi Hty study

97. :207 U-:!B

U-2Cs

152. 196. :!08. 2!0. 217 U-2F

198 U-2G

248. 250. :252. 255 lJ-2R

25 I 路253. 257. 282. 336

66 Ukraine 106 Under """'crPI':~rv 188. Unidentified 72 United Arab Republic

121. 124. 140, 14~. 147-148. 153-156. 159. 161. 163-164. 179. 181 183. 187. 201. 205. 215. 221-222. 224-226. 229-232. 245:!47. :!54. 256. 285.294. :!97, 299. 301-302. 306. 315. 60. 316. 318-319. 332 unmanned reconnaissance aircraft 304

(UFOs)

Chief of Air Staff

78 EC-130. 146 Inspector General 61 oxygen mask 62 RB-570 Canberra 162 Third Air Force 89 US deterrent force 317

Approved for

201

389 bomber Privateer patrol aircraft J Naval Ordnance Test Station 340 News and World Reporr

99 US nuclear test monitoring system !39 US nuclear tests

Vladivostok, Soviet Union 3, !26 Richard 8 Voigt, Waldemar 8 River 22 von Fritsche. Werner I

147 US Senate, Armed Services Committee 88. 99, !85 US Senate, Foreign Relations Committee !65, !85 US 6th Fleet !53 US 7th Fleet 215 US Intelligence Board (USIB) 196-197. 225. 228, 249, 332. 336 USS Kilty Hawk

247 USS Ranger

250 utility aircraft

w WADC's Bombardment Branch 8 Wake Island 305 Walker, Christophc::r H. 155 wallpaper 130 Walter Reed Hospital 96 Warsaw Pact 87 Washington University. St. Louis 29 Watertown Strip

Vance. 300, 309路3!0 Venezuela 211

vernier adjustment

Watton RAF Base. England !56 "weather plane" cover story

179 weather research 85-86, 89-90, 132. 182 Weathent:ise 216 Wendover,

001 009

Approved for Release: 2013/06/25

390 WHALE TALE

Wright Air Developmem Command

247. 249 Whcelon. Albert (Bud)

4-5. 8. 12. 14. !8. 35. 73 Wright-Patterson

240. 287. 333 Wheelus AFB

WRlNGER

121

White House

WS-46IL

33,43,97,109,1l!-1!2,120,l22. 128. 154. 172. 186. !89 Wienberg. Charles F. {Bud}

Wu-ch'ang, China

144-145 228

7. 1!-!2 Wiesbaden. Germany

80. 95. 104-105. 108, 114-115. 120-121 Wiesner. Jerome B.

37 Williams, John I.

185 Williamsport, Penns y1vania 222 Wilson, Charles

126 wind currents

X XF-!04 (See Lockheed Day Fighter} X-!6

9, 13, 15, 26. 34-35 X-band radar pulses

335 X-rays

291

87 wind tunnels

269 wing teeth

277 wings

5, 8. II. 23-25. 42, 45, 47, 66. 68. 72.75-76.80.89, 95. !29, 148-!49. 199. 242. 248, 251. 211, 274. 2n 286. 312. 340

YAK-25RM (See Mandrake)

YAK-26 (See Mandrake) Yakovlev

148 Wonsan Harbor

307 Worcester. Massachusetts

Yakovlev-25 148 Yale 15

0094 Approved for Release: 2013/06/25

391

Sov!et Union 176

Yutzy. Henry 31

001

0 4

Approved for Release: 2013/06/25

lcutl --

Approved for Release: 2013/06/25