Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 DISSEMINATION CONTROL ABBREVIATIONS NOFORN- Not Releasable to Foreign Nationals NOCONTRACT- Not Releasable to Contractors or Contractor/Consultants PROPIN- Caution- Proprietary Information Involved ORCON- Dissemination and Extraction of Information Controlled by Originator REL. . .- This Information has been Authorized for Release to .. . Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116ROO0700840013-9 The Director of Central Intelligence Wuhin`ton, D.C. 20505 National Intelligence Council 16 October 1986 Copy MEMORANDUM FOR: Director of Central Intelligence Deputy Director of Central Intelligence FROM: Lawrence K. Gershwin National Intelligence Officer for Strategic Programs SUBJECT: Unclassified Statement on Soviet Strategic Defense 1. This memorandum responds to your request for advice on how to augment the material already available for public release on Soviet strategic defense programs. As such, it updates the memorandum we sent to you on 8 August which is at attachment A; that memorandum is still valid. In this memo, we have also sought to offer some observations on the prohlem at hand. (S NF) 2. The US effort to publicize Soviet strategic defense programs has been a general failure, but not because of any paucity of unclassified materials; to the contrary, there is a considerable amount already out there. Moreover, the material already released to the public is quite good and is largely fully descriptive of what the Soviets are doing. THE PROBLEM IS THAT THE ADMINISTRATION IS SIMPLY NOT USING THAT MATERIAL; THEY ARE EITHER NOT USING IT AT ALL OR DOING SO ONLY HALF HEARTEDLY. For example, the President's speech on Monday night, 13 October in which he attempted to explain that US SDI was important because of Soviet strategic defense programs did little more then cite the Krasnoyarsk radar as justification. Much more could have.been used from the already declassified stockpile of materia s. As an example, at attachment B is the State Do pamphlet on Soviet de ensive programs that is really quite good. The President's staff could have used any of the materials in that to buttress his case--but they didn't. Another outstanding piece is the 1985 speech by Paul Nitze (at attachment C)--the most effective presentation I have read. Why didn't the White House get the Nitze speech on tape, or have Nitze do it for the media? (S NF) 3. With respect to the State/DoD pamphlet, that went over with a dull thud when first released and has virtually never been heard of again. The way the Administration handled the press campaign on this publication is sort of akin to Gray and Company showing a major ad, like the "Where's the Beef" commercial, just once and wondering why it wasn't a success. I myself was a witness to the lousy job they did in giving copies to the Congress in conjunction with my classified briefings. In short, from where we sit, the Administration's effort to publicize what the Soviets are doing in the field of strategic defense appears puny! (S NF) Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116ROO0700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 SUBJECT: Unclassified Soviet Strategic Defense 4. There are probably several ways to turn this thing around. First and foremost the White House Staff needs to do a better job of publicizing what the Soviets are doing. As part of this effort the Administration would probably want to issue another State/DoD pamphlet, rather than face the fact that they have failed to take advantage of the existing material. There is some danger in generating a new pamphlet, because some in the policy world will use this as an opportunity to force the release of additional declassified material of marginal value including in areas where it would be best to hold the line. Moreover, simply issuing another pamphlet is not a prescription for success; in part because the Pentagon just doesn't have the credibility needed. The real problem is to get the Administration to effectively and persistently sell the story contained in the wealth of material already released. (S NF) 5. Another possibility is a Presidential address--one like the President's first televised foreign policy speech in which he described the Soviet military threat. He did this aided by the use of computer generated bar charts and airborne photography. He could easily do another such presentation in which he explained to the nation why SDI was important in light of Soviet strategic defense. The material in the State/DoD pamphlet could serve as a basic text from which his speech writers could work. Should the Administration decide to go this route, the State/DoD pamphlet could be auuamented with the piece we have done for you and graphics could be constructed to support tnat. in LdDS A dna D, you will find still other material that can be considered for release. (S NF) 6. Still another possibility is a second Gates/Gershwin unclassified presentation to the Congress. This one, of course, would be on Soviet strategic defenses. The first Gates/Gershwin presentation got considerable attention and continues to be cited by the media, including in publications such as Foreign Affairs, as well as on the Hill as an authoritative piece. There has been no challenge to its credibility. The danger is that we might not do such a good job the next time, or that we could be hit hard, unjustifiably, for politicizing intelligence by selective unclassified release. (S NF) 2 TOP SECRET 25X1 25X1 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01: CIA-RDP88GO1116R000700840013-9 SUBJECT: Unclassified Soviet Strategic Defense 7. At attachment (), you will find one item prepared by OSWR on the tech transfer issue which you might consider for unclassified release. In my view, this item is good but not yet ready for release; it needs a tougher tone, -a much better introductory paragraph Regardless, as I have tri to indicate the best way out of this mess is for the Administration to make Attachment As stated Downgrade to SECRET NOFORN when removed from attachment 3 TOP SECRET 25X1 25X1 25X1 25X1 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Iur JtLKtI SUBJECT: Unclassified Soviet Strategic Defense Distribution: Cy 1 - DCI (w/att) 2 - nDCI (w/att) 3 - Chm/NIC 4 - ADDI 5 - D/SOVA 6 - D/OSWR 7 - C/ACIS 8 - C/CRES 9 - N I 0/S P NIO/SP:I I (160ct86) 4 TOP SECRET Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Iq Next 6 Page(s) In Document Denied Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 I  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Soviet Strategic Defense Programs p. 4, line 8 "both in near term" should read "both in the near term". p. 18, caption "look-down-shoot-down" should read "look-down/shoot-down". p. 25, col. 2, 1. 44 "12 million kilograms" should read "12 million pounds". p. 26, graphic BACKFIRE bomber was inadvertently omitted from depiction of Soviet strategic forces. It was introduced in 1974. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 SOVIET STRATEGIC DEFENSE PROGRAMS Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Released by the Department of Defense and Department of State, October 1985 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 SOVIET STRATEGIC DEFENSE PROGRAMS The United States Government has not recognized the incorporation of Estonia, Latvia, and Lithuania into the Soviet Union. Other boundary representations on the maps are not necessarily authoritative. The illustrations of Soviet strategic defense facilities and systems included in this publication are derived from various U.S. sources; while not precise in every detail, they are as authentic as possible. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Preface In March 1983, President Reagan presented a dramatic new vision of a world in which we would no longer have to depend on nuclear weapons to prevent nuclear conflict. He presented that vision, and that challenge, in this way: What if free people could live secure in the knowledge that their se- curity did not rest upon the threat of instant U.S. retaliation to deter a Soviet attack, that we could intercept and destroy strategic ballistic missiles before they reached our own soil or that of our allies? The Strategic Defense Initiative (SDI), which the President announced that night, marks the first, essential step toward the realization of his ultimate goal. The SDI is a research program, designed to examine the promise of effective defenses against ballistic missiles based on new and emerging technologies. If such defenses prove feasible, they would provide for a more stable and secure method of preventing war in the future, through the increasing contribution of non-nuclear defenses which threaten no one. The Strategic Defense Initiative has been the subject of much discussion within the United States and allied countries since its initiation. Such exchanges are essen- tial in our free societies and can only help ensure that the vision behind the research program can be achieved. There has been comparatively little public discussion, how- ever, about the trend in Soviet defensive as well as offensive forces which provides the essential backdrop to the SDI. Indeed, the Soviet Union has intentionally tried to mislead the public about its strategic defense activities. As this publication documents, Soviet efforts in most phases of strategic defense have long been far more extensive than those of the United States. The USSR has major passive defense programs, designed to protect important assets from attack. It also has extensive active defense systems, which utilize weapons systems to protect national territory, military forces, or key assets. Soviet developments in the area of active defenses fall into three major categories: air defense; ballistic missile defense based on current technologies; and research and development on advanced defenses against ballistic missiles. Important recent Soviet activities in strategic defenses include: ? Upgrading and expansion of the world's only operational Anti-Ballistic Missile (ABM) system around Moscow; ? Construction of the Krasnoyarsk ballistic missile detection and tracking radar that violates the 1972 ABM Treaty; ? Extensive research into advanced technologies for defense against ballistic mis- siles including laser weapons, particle beam weapons, and kinetic energy weapons; ? Maintenance of the world's only operational antisatellite (ASAT) system; ? Modernization of their strategic air defense forces; and ? Improvements in their passive defenses by maintaining deep bunkers and blast shelters for key personnel, and enhancing the survivability of some offensive systems through mobility and hardening. The following pages examine in detail Soviet programs in defenses against bal- listic missiles, air defense, and passive defense. A summary of key Soviet offensive Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 force developments is presented in the annex to this document, since those are crit- ical to an understanding of the impact of Soviet strategic defense programs. Soviet offensive forces are designed to be able to limit severely U.S. and allied capability to retaliate against attack. Soviet defensive systems in turn are designed to prevent those retaliatory forces which did survive an attack from destroying Soviet targets. Given the long-term trend in Soviet offensive and defensive force developments, the United States must act in three main areas to maintain security and stability both in near term and in the future. First, we must modernize our offensive nuclear forces in order to ensure the es- sential military balance in the near term, and to provide the incentives necessary for the Soviet Union to join us in negotiating significant, equitable, and verifiable nuclear arms reductions. Second, we must act now to start constructing a more reliable strategic order for the long term by examining the potential for future effective defenses against bal- listic missiles. The Strategic Defense Initiative is a prudent and necessary response to the ongoing extensive Soviet anti-ballistic missile effort, including the existing Soviet deployments permitted under the ABM Treaty. The SDI provides a necessary and powerful deterrent to any near-term Soviet decision to expand rapidly its ABM capability beyond that permitted by the ABM Treaty. The overriding importance of the Strategic Defense Initiative, however, is the promise it offers of moving to a better, more stable basis for deterrence in the future and of providing new and com- pelling incentives to the Soviet Union to agree to progressively deeper negotiated reduction in offensive nuclear arms. The third approach is one of negotiation and diplomacy. We are even now looking forward to a transition to a more stable world, with greatly reduced levels of nuclear arms and enhanced ability to deter war based upon the increasing contribution of non-nuclear defenses against offensive nuclear arms. Toward those ends, we are endeavoring at the negotiations in Geneva to achieve significant, equitable, and verifiable reductions in existing nuclear arsenals and to discuss with the Soviets the relationship between offensive and defensive forces and the possibility of a future transition to a more defense-reliant deterrence. g C4, CASPAR W. WEINBERGER GEORGE P. SHULTZ Secretary of Defense Secretary of State Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Introduction In the late 1960s, given the state of defensive technology at the time, the United States came to believe that deterrence could best be assured if each side were able to maintain the ability to threaten retaliation against any attack and thereby impose on an aggressor costs that were clearly beyond any potential gains. That con- cept called for a reduction by both the Soviet Union and the United States in their strategic defensive forces, the maintenance of a balance between the two sides' offensive nuclear forces, and negotiated nuclear arms reductions which would maintain the balance at progressively lower levels. In accordance with those principles, the United States exercised great restraint in of- fensive nuclear arms and at the same time dra- matically lowered its defensive forces. Thus, we removed most of our defenses against Soviet bombers; decided to maintain a severely limited civil defense program; ratified the 1972 Anti- Ballistic Missile (ABM) Treaty, which placed strict limits on U.S. and Soviet defenses against ballistic missiles; and then deactivated the one ABM site which we were allowed under that Treaty. The basic idea that stability and de- terrence would be maintained if each side had roughly equal capability to retaliate against attack also served as the foundation for the U.S. approach to the Strategic Arms Limitation Talks (SALT) process of the 1970s. The Soviet Union, however, failed to show the type of restraint, in both strategic offensive and defensive forces, that the United States hoped for when the SALT process began. The USSR has consistently refused to accept mean- ingful and verifiable negotiated reductions in offensive nuclear arsenals. Since the late 1960s, the Soviets have greatly expanded and mod- ernized their offensive nuclear forces and in- vested an approximately equal sum in strategic defenses. The USSR has an extensive, mul- tifaceted operational strategic defensive net- work which dwarfs that of the United States as well as an active research and development program in both traditional and advanced de- fenses against ballistic missiles. Soviet non- compliance with arms control agreements in both the offensive and defensive areas, includ- ing the ABM Treaty, is a cause of very seri- ous concern. The aggregate of current Soviet ABM and ABM-related activities suggest that the USSR may be preparing an ABM defense of its national territory precisely what the ABM Treaty was designed to prevent. Soviet offensive and defensive force develop- ments pose a serious challenge to the West. If left unchecked and unanswered, they would un- dermine our ability to retaliate effectively in case of Soviet attack. The situation would be even more severe if the Soviet Union were to have a monopoly on advanced defenses against ballistic missiles in addition to its sizable of- fensive and defensive forces. In that case, the USSR might come to believe that it could launch a nuclear attack against the United States or our allies without fear of effective retaliation. At the very least, it might see a re- alistic chance of successful nuclear blackmail. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 Soviet Strategic Defense Programs The Soviet Approach The Soviet emphasis on strategic defense is firmly grounded in Soviet military doctrine and strategy, which call for the following actions in the event of nuclear war: ? destruction and disruption of the West's nuclear-associated command, control, and communications; ? destruction or neutralization of as many of the West's nuclear weapons as possible on the ground or at sea before they could be launched; ? interception and destruction of surviving weapons aircraft and missiles before they reached their targets; and ? protection of the Party, the State, military forces, industrial infrastructure, and the essential working population against those weapons that survived attacks by Soviet offensive forces. In pursuit of these goals the USSR puts consid- erable stress on a need for effective strategic defenses as well as offensive forces. In the So- viet view, the USSR could best achieve its aims in any nuclear war if it attacked first, destroy- ing much of the U.S. and allied capability for retaliation. Defensive measures, both active and passive, would in turn prevent those en- emy forces that survived a Soviet first-strike from destroying targets in the USSR. Marshall V. D. Sokolovskiy, in Military Strategy -- the basic Soviet strategic treatise, originally published in 1962 defined the aim of Soviet strategic defenses in this way: "They have the task of creating an invincible system for the defense of the entire country. ... While, in the last war, it was sufficient to destroy 15- 20 percent of the attacking air operation, now it is necessary to assure, essentially, 100 per- cent destruction of all attacking airplanes and missiles." Soviet offensive and defensive force develop- ments over the past 25 years demonstrate that the strategy articulated by Sokolovskiy still ap- plies. The following pages present a detailed description of the actions undertaken by the Soviets in the area of strategic defenses. In or- der to explain the totality of the Soviet strate- gic military effort, a description of offensive force developments is provided in the annex to this document. Defensive Forces Over the last 25 years the Soviets have in- creased their active and passive defenses in a clear and determined attempt to blunt the effect of U.S. and allied retaliation to any So- viet attack. Passive defenses are non-weapons measures such as civil defense and harden- ing - which protect important assets against attack. Active defenses utilize weapon systems to protect national territory, military forces, or key assets. Evidence of the importance the Soviets at- tach to defensive damage-limitation can be traced back to the beginning of the nuclear age. National Air Defense became an independent service in the late 1950s and since 1959 has gen- erally ranked third in precedence within the Soviet Armed Forces, following the Strategic Rocket Forces and the Ground Forces. By the mid-1960s, two new mission areas antisatellite defense and anti-missile defense -- were added to the National Air Defense mis- sion. As a result, the Soviet Union has the world's only operational anti-satellite (ASAT) system, which has an effective capability to seek and destroy critical U.S. satellites in low- earth orbit. In addition, Soviet efforts to attain a viable strategic defense against ballistic mis- siles have resulted in the world's only opera- tional ABM system and a large and expanding research and development program. The Soviet emphasis on the necessity of re- search into defenses against ballistic missiles was demonstrated by then-Minister of Defense Grechko shortly after the signing of the ABM Treaty in 1972, when he told the Soviet Pre- sidium that the Treaty "places no limitations whatsoever on the conducting of research and experimental work directed towards solving the problem of defending the country from nu- clear missile strikes." Ballistic Missile Defense The Soviets maintain the world's only oper- ational ABM system around Moscow. In 1980, they began to upgrade and expand that system to the limit allowed by the 1972 ABM Treaty. The original single-layer Moscow ABM system included 64 reloadable above-ground launchers at four complexes and DOG HOUSE and CAT HOUSE battle management radars south of Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 Moscow Ballistic Missile Defense 0 ? Pushkino Phased-Array Radar ABM Radar ABM Radar 15 30 KM ABM Silo Sites Under Construction _9 Roads The Moscow ballistic missile defenses identified in map at right include the Pushkino ABM radar, above, GALOSH anti-ballistic missile interceptors, top left, and new silo-based high- acceleration interceptors, top right. Moscow. Each complex consisted of TRY ADD tracking and guidance radars and GALOSH interceptors (nuclear-armed, ground-based mis- siles designed to intercept warheads in space shortly before they reenter the Earth's atmo- sphere). When completed, the modernized Moscow ABM system will be a two-layer defense com- posed of. silo-based, long-range, modified GA- LOSH interceptors; silo-based, high-acceler- tion interceptors designed to engage targets within the atmosphere; associated engagement, and guidance radars; and a new large radar at Pushkino designed to control ABM engage- ments. The silo-based launchers may be reload- able. The new system will have the 100 ABM Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 Ballistic Missile Early Warning, Target-Tracking, and Battle Management launchers permitted by the ABM Treaty and could be fully operational by 1987. The Soviet system for detection and track- ing of ballistic missile attack consists of a launch-detection satellite network, over-the- horizon radars, and a series of large phased- array radars. The current launch-detection satellite net- work can provide about 30 minutes warning of any U.S. ICBM launch and determine the gen- eral origin of the missile. Two over-the-horizon radars directed at the U.S. ICBM fields also could give 30 minutes warning. The next operational layer of ballistic mis- sile detection consists of 11 large HEN HOUSE ballistic missile early warning radars at six lo- cations on the periphery of the USSR. These radars can distinguish the size of an attack, confirm the warning from the satellite and over-the-horizon radar systems, and provide target-tracking data in support of anti-ballistic missile forces. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 The 11 large HEN HOUSE ballistic missile early warning radars, at left, at six locations on the periphery of the USSR provide warning and target-tracking data in support of the Soviet ABM system. The DOG HOUSE radar, at right, provides battle management for the anti-ballistic missile interceptors around Moscow. The Soviets are now constructing a network of six new large phased-array radars that can track more ballistic missiles with greater accu- racy than the existing HEN HOUSE network. Five of these radars duplicate or supplement the coverage of the HEN HOUSE network, but with greatly enhanced capability. The sixth, under construction near Krasnoyarsk in Siberia, closes the final gap in the Soviet early warning radar coverage against ballistic mis- sile attack. Together, the six new large phased- array radars form an arc of coverage from the Kola Peninsula in the northwest Soviet Union, around Siberia, to the Caucasus in the south- west. The United States is now constructing new ballistic missile early warning radars, known as PAVE PAWS, that are located on the periph- ery of our territory and oriented outward. Both the U.S. and the USSR, in signing the ABM Treaty, recognized the need for ballistic missile early warning radars. At the same time, they recognized that ballistic missile early warn- ing radars can detect and track warheads at great distances and therefore have a significant anti-ballistic missile potential. Such an ABM capability would play an important role in a nationwide ABM defense, which the Treaty was designed to prevent. As a result, the U.S. and the Soviet Union agreed that future ballistic missile early warning radars must be located on a nation's periphery and oriented outward. In that way, the desirable and legiti- mate goal of early warning could be advanced while minimizing the danger that an effective nationwide battle management network could result. The Krasnoyarsk radar is designed for bal- listic missile detection and tracking, includ- ing ballistic missile early warning, and vio- lates the 1972 ABM Treaty. It is not located within a 150-kilometer radius of the national capital (Moscow) as required of ABM radars, nor is it located on the periphery of the So- viet Union and pointed outward as required for early warning radars. It is 3,700 kilometers from Moscow and is situated some 750 kilo- meters from the nearest border - Mongolia. Moreover, it is oriented not toward that bor- der, but across approximately 4,000 kilometers of Soviet territory to the northeast. The Soviet Union has claimed that the Kras- noyarsk radar is designed for space tracking, rather than ballistic missile early warning, and therefore does not violate the ABM Treaty. Its design, however, is not optimized for a space- tracking role, and the radar would, in any event, contribute little to the existing Soviet Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 space tracking network. Indeed, the design and acknowledged by the Soviets to be for of the Krasnoyarsk radar is essentially iden- ballistic missile detection and tracking, includ- tical to that of other radars that are known - ing ballistic missile early warning. Finally, it The Soviet Union is violating the ABM Treaty through the siting, orientation and capability of the large phased-array, ballistic missile detection and tracking radar at Krasnoyarsk. The receiver and transmitter of the large phased-array, ballistic missile detection and tracking radar at Pechora. The design of the Krasnoyarsk radar is essentially identical to that of the Pechora radar. Unlike the Pechora radar, however, the Krasnoyarsk radar does not meet the ABM Treaty requirement that early warning radars be located on the periphery of the Soviet Union and be oriented outward. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 closes the last remaining gap in Soviet ballistic missile detection coverage. The Krasnoyarsk radar, therefore, is being constructed in direct violation of the ABM Treaty. The growing Soviet network of large phased- array ballistic missile detection and tracking radars, of which the Krasnoyarsk radar is a part, is of particular concern when linked with other Soviet ABM efforts. Such radars take years to construct; their existence might al- low the Soviet Union to move rather quickly to construct a nationwide ABM defense if it chooses to do so. The Soviets are also de- veloping components of a new ABM system which apparently are designed to allow them to construct individual ABM sites in a mat- ter of months, rather than the years that are required for more traditional ABM systems. So- viet activities in this regard potentially violate the ABM Treaty's prohibition on the devel- opment of a mobile land-based ABM system or components. We estimate that by using these components, the Soviets could undertake rapidly-paced ABM deployments to strengthen the defenses of Moscow and defend key targets in the western USSR and east of the Urals by the early 1990s. In addition, the Soviets have probably vio- lated the prohibition on testing surface-to-air missile (SAM) components in an ABM mode by conducting tests involving the use of SAM air defense radars in ABM-related testing activi- ties. Moreover, the SA-10 and SA-X-12 SAM systems may have the potential to intercept some types of strategic ballistic missiles. Taken together, all of the Soviet Union's ABM and ABM-related activities are more significant - and more ominous - than any one considered individually. Cumulatively, they suggest that the USSR may be preparing an ABM defense of its national territory. Advanced Technologies for Defense Against Ballistic Missiles In the late 1960s, in line with its long-stand- ing emphasis on strategic defense, the Soviet Union initiated a substantial research program into advanced technologies for defense against ballistic missiles. That program covers many of the same technologies involved in the U.S. Strategic Defense Initiative, but represents a far greater investment of plant space, capital, and manpower. Laser Weapons The USSR's laser program is much larger than U.S. efforts and involves over 10,000 scien- tists and engineers and more than a half dozen major research and development facilities and test ranges. Much of this research takes place at the Sary Shagan Missile Test Center where the Soviets also conduct traditional ABM re- search. Facilities there are estimated to in- clude several air defense lasers, a laser that The directed-energy R&D site at Sary Shagan proving ground includes ground-based lasers that could be used in an antisatellite role today and possibly a ballistic missile defense role in the future. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 may be capable of damaging some components of satellites in orbit, and a laser that could be used in feasibility testing for ballistic missile defense applications. A laser weapon program of the magnitude of the Soviet effort would cost roughly $1 billion per year in the U.S. The Soviets are conducting research in three types of gas lasers considered promising for weapons applications: the gas-dynamic laser; the electric discharge laser; and the chemi- cal laser. Soviet achievements in this area, in terms of output power, have been impressive. The Soviets are also aware of the military po- tential of visible and very short wave-length lasers. They are investigating excimer, free- electron, and x-ray lasers, and have been de- veloping argon-ion lasers for over a decade. The Soviets appear generally capable of sup- plying the prime power, energy storage, and auxiliary components needed for most laser and other directed-energy weapons. They have developed a rocket-driven magnetohydro- dynamic generator which produces over 15 megawatts of electrical power - a device that has no counterpart in the West. The Soviets may also have the capability to develop the optical systems necessary for laser weapons to track and attack their targets. Thus, they pro- duced a 1.2-meter segmented mirror for an as- trophysical telescope in 1978 and claimed that this was a prototype for a 25-meter mirror that would be constructed in the future. A large mir- ror is considered necessary for a space-based laser weapon. Unlike the U.S., the USSR has now pro- gressed in some cases beyond technology re- search. It already has ground-based lasers that could be used to interfere with U.S. satel- lites, and could have prototype space-based antisatellite laser weapons by the end of the decade. The Soviets could have prototypes for ground-based lasers for defense against ballis- tic missiles by the late 1980s, and could begin testing components for a large-scale deploy- ment system in the early 1990s. The remaining difficulties in fielding an oper- Soviet ABM/Space Defense Programs Deployment phase Laser Particle Beam ABM Treaty President's SDI Speech 1955 1965 1975 1985 Soviet programs for ABM and Space Defense, which include advanced technologies and space based weapons, were in place prior to the 1972 ABM Treaty and have continued to expand in scope and size. During the same time period, U.S. ABM/Space Defense research has been limited in scope as well as the level of effort in terms of resources invested. 'Potential capability of the Moscow ABM system. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 ational system will require still more develop- ment time. An operational ground-based laser for defense against ballistic missiles probably could not be deployed until the late 1990s, or after the year 2000. If technology developments prove successful, the Soviets may deploy oper- ational space-based antisatellite lasers in the 1990s, and might be able to deploy space-based laser systems for defense against ballistic mis- siles after the year 2000. Particle Beam Weapons Since the late 1960s, the Soviets have been involved in research to explore the feasibility of space-based weapons that would use parti- cle beams. We estimate that they may be able to test a prototype particle beam weapon in- tended to disrupt the electronics of satellites in the 1990s. A weapon designed to destroy satellites could follow later. A weapon capa- ble of physically destroying missile boosters or The USSR's operational antisatellite interceptor is launched from the Tyuratam Space Complex, where two launch pads and storage for additional interceptors and launch vehicles are available. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 The Soviet orbital antisatellite (ASAT) weapon is operational and designed to destroy space targets with a multi-pellet blast. warheads probably would require several addi- on Soviet work conducted in the late 1960s and tional years of research and development. It is still uncertain whether ground-based charged particle-beam weapons are feasible that is, whether the beam will propagate in the atmosphere. A space-based neutral particle beam weapon, however, would not be affected by the atmosphere or by the earth's magnetic field. Soviet efforts in particle beams, and par- ticularly on ion sources and radio frequency quadrupole accelerators for particle beams, are very impressive. In fact, much of the U.S. un- derstanding as to how particle beams could be made into practical defensive weapons is based early 1970s. Radio Frequency Weapons The USSR has conducted research in the use of strong radio frequency signals that have the potential to interfere with or destroy critical electronic components of ballistic missile war- heads. The Soviets could test a ground-based radio frequency weapon capable of damaging satellites in the 1990s. Kinetic Energy Weapons The Soviets also have a variety of research programs underway in the area of kinetic en- Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 ergy weapons, using the high-speed collision of a small mass with the target as the kill mech- anism. In the 1960s, the USSR developed an experimental "gun" that could shoot streams of particles of a heavy metal such as tungsten or molybdenum at speeds of nearly 25 kilome- ters per second in air and over 60 kilometers per second in a vacuum. Long-range, space-based kinetic-energy systems for defense against ballistic missiles probably could not be developed until the mid- 1990s or even later. The USSR could, how- ever, deploy in the near-term a short-range, space-based system useful for satellite or space station defense or for close-in attack by a maneuvering satellite. Soviet capabilities in guidance and control systems probably are ad- equate for effective kinetic energy weapons for use against some objects in space. Computer and Sensor Technology Advanced weapons programs including potential advanced defenses against ballistic missiles - are also dependent on remote sensor and computer technologies which are currently more highly developed in the West than in the Soviet Union. The Soviets are therefore devot- ing considerable resources to improving their abilities and expertise in these technologies. An important part of that effort involves an in- creasing exploitation of open and clandestine access to Western technology. For example, the Soviets have long been engaged in a well- funded effort to purchase U.S. high-technology computers, test and calibration equipment, and sensors illegally through third parties. Antisatellite Developments The USSR has had for more than a dozen years the world's only operational antisatellite system, a co-orbital device which enters into the same orbit as its target satellite and, when it gets close enough, destroys the satellite by exploding a conventional warhead. In addition, the nuclear-armed GALOSH ABM interceptor deployed around Moscow may have ASAT ca- pability, and Soviet ground-based lasers could possibly damage some sensors on some U.S. satellites. Furthermore, as noted earlier, the Soviets are engaged in research and, in some cases development, of weapons which ultimately may serve as ballistic missile defense systems, but probably will first provide antisatellite capabilities. Air Defense Although the United States began disman- tling most of its defenses against Soviet bomb- ers in the 1960s, the Soviet Union has con- tinued to invest enormous resources in a wide array of strategic air defense weapon systems. Taken together, the Soviet strategic air defense network is a potent and increasingly capable force which would attempt to limit the retal- iatory capability of our strategic bombers and cruise missiles. The Soviets have deployed numerous strate- gic air defense systems with excellent capabili- ties against aircraft flying at medium and high altitudes. They are now in the midst of a major program to improve their capabilities against aircraft and cruise missiles that fly at low alti- tudes. That effort includes partial integration of strategic and tactical air defenses, the up- grading of early warning and surveillance ca- pabilities, the deployment of more efficient data transmission systems, and the development and initial deployment of new aircraft, associated air-to-air missiles, surface-to-air missiles, and airborne warning and control system (AWACS) aircraft. Interceptor Aircraft Bases Strategic SAM Concentrations Radars (BM D, EW, OTH types) 14 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Currently, the Soviets have nearly 12,000 additional 2,800 interceptors assigned to So- SAM launchers at over 1,200 sites, 10,000 air viet Air Forces (SAF) could also be employed defense radars, and more than 1,200 intercep- in strategic defense missions. In contrast, the tor aircraft dedicated to strategic defense. An U.S. has approximately 300 interceptor aircraft The new 11-76/MAINSTAY aircraft is illustrated as configured for its Airborne Warning and Control Systems mission. METERS 30 0 based in the U.S. dedicated to strategic defense, 118 strategic air defense warning radars, and no operational strategic surface-to-air missile launchers. These figures do not include tac- tical air defenses deployed by NATO and the Warsaw Pact in Europe. The newest Soviet air defense interceptor aircraft, the MiG-31/FOXHOUND, has a look- down/shoot-down and multiple-target engage- ment capability. More than 85 FOXHOUNDS are now operationally deployed at several loca- tions from the Arkhangelsk area in the north- western USSR to the Far East Military District. Two new fighter interceptors, the Su-27/FLANKER and the MiG-29/FULCRUM, also have look-down/shoot-down capabilities and are designed to be highly maneuverable USSR Air Defense Interceptor Aircraft Tu-128 FIDDLER B MiG-25 Su-15 Su-27 FOXBAT A/E FLAGON E/F FLANKER MiG-29 MiG-31 YaK-28 MiG-23 FULCRUM FOXHOUND SPEED (KTS) 1,625 1,200 1,350 950 1,080 1,350 1,350 1,375 RADIUS (KM) 1,450 1,000 1,500 1,500 900 1,300 1,150 2,100 ARMAMENT 4 AAMs 2 AAMs 6 AAMs 4 AAMs 2 AAMs 6 AAMs 6 AAMs 8 AAMs WINGSPAN (M) 14 9 14 18 12 8 (swept) 12 14 US Air Defense Interceptor Aircraft F-106A F-4C/D F-15A DELTA DART PHANTOM II EAGLE SPEED (KTS) 1,150 1,200 1,450 RADIUS (KM) 925 825 1,000 ARMAMENT 5 AAMs 8 AAMs 8 AAMs WINGSPAN (M) 12 12 13 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 The MiG-29/FULCRUM all-weather, air superiority fighter-interceptor reflects the USSR's continuing drive to produce new generations of tactical and strategic aircraft. The FULCRUM is fitted with AA-10 missiles and the USSR's most modern look-down-shoot-down radar. USSR Strategic Surface-to-Air Missiles 0 RANGE (KM) MEDIUM- TO-HIGH LOW-TO- HIGH in air-to-air combat. These three aircraft are equipped with two new air-to-air missiles - the long-range AA-9 (for the FOXHOUND) and the medium-range AA-10 (for the FULCRUM and FLANKER) that can be used against low- flying targets. LOW-TO- HIGH The USSR is also deploying the MAINSTAY airborne warning and control system (AWACS) aircraft, which will improve substantially its capabilities for early warning and air combat command and control, especially against low- flying aircraft and cruise missiles. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 The Soviets maintain the world's most ex- tensive early warning system for air defense, composed of a widespread network of ground- based radars linked operationally with those of their Warsaw Pact allies. As previously noted, more than 10,000 air surveillance radars of var- ious types provide virtually complete coverage at medium to high altitudes over the USSR, and in some areas well beyond the Soviet Union's borders. Three over-the-horizon radars for bal- listic missile warning could provide additional warning of the approach of high-flying aircraft. The USSR also has an active research and development program to improve its air surveil- lance network. In 1983, it began to deploy two new types of air surveillance radars which will enhance Soviet capabilities for air defense, electronic warfare and early warning of cruise missile and bomber attacks. The Soviets are also continuing to deploy improved air surveil- lance data systems that can rapidly pass data from outlying radars through the air surveil- lance network to ground-controlled intercept sites and SAM command posts. Soviet strategic surface-to-air missiles pro- vide low-to-high-altitude barrier, area, and ter- minal defenses under all weather conditions. Five systems are now operational: the SA-1, SA-2, and SA-3, and the more capable SA-5 and SA-10. The recent Soviet air defense reorgani- zation permits efficient integration of strategic and tactical SAM systems. While most tactical SAMs have a shorter range than their strate- gic counterparts, many have better capabilities against targets flying at low altitude. Over the years the Soviets have continued to deploy the long-range SA-5 and have repeat- edly modified the system. Further deployment The mobile version of the SA-10 SAM will soon be operational. 19 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 The surface-to-air missiles of the SA-X-12 air defense system are designed to counter high- performance aircraft, will also have a capability against tactical ballistic missiles, and may have a potential against some strategic ballistic missiles as well. and upgrading of the SA-5 to enhance its capa- bility to work in conjunction with low-altitude systems like the SA-10 are probable. The SA-10 can defend against low-altitude targets with small radar cross-sections, like cruise missiles. The first SA-10 site was op- erational in 1980. Over 60 sites are now op- erational and work is progressing on at least another 30. More than half these sites are lo- cated near Moscow; this emphasis on Moscow and the patterns noted for the other SA-10 sites suggest a first priority on terminal defense of command and control, military, and key indus- trial complexes. In keeping with their drive toward mobility as a means of weapons survival, the Soviets are developing a mobile version of the SA-10 which could become operational late this year. This mobile version could be used to support Soviet theater forces and to permit periodic changes in the location of SA-10 sites within the USSR so as to counter U.S. retaliatory forces more effectively. The Soviets are also flight-testing another important mobile SAM system, the SA-X-12, which is able to intercept aircraft at all al- titudes, cruise missiles, and short-range bal- listic missiles. The SA-10 and SA-X-12 may have the potential to intercept some types of strategic ballistic missiles as well. This is a serious development because these systems are expected to be deployed widely through- Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 out the Soviet Union in the 1980s. They could, if properly supported, add a significant point- target defense coverage to a nationwide Soviet ABM deployment. Passive Defenses Soviet military doctrine calls for passive de- fenses to act in conjunction with active forces to ensure the wartime survival and continu- ity of Soviet nuclear forces, leadership, mili- tary command and control units, war-related industrial production and services, the essen- tial work force, and as much of the general population as possible. The U.S. passive de- fense effort is far smaller and more limited; it is no way comparable to the comprehensive Soviet program. Physical hardening of military assets to make them more resistant to attack is an im- portant passive defense technique. The USSR has hardened its ICBM silos, launch facilities, and key command and control centers to an un- precedented degree. Much of today's U.S. retal- iatory force would be ineffective against those hardened targets. To maintain effective deter- rence, the United States must be able credi- bly to threaten prompt retaliation against the full spectrum of Soviet targets, including those which have been greatly hardened. Soviet leaders and managers at all levels of the government and Communist Party are provided hardened alternate command posts lo- cated well away from urban centers - in addi- tion to many deep bunkers and blast shelters in Soviet cities. This comprehensive and redun- dant system, patterned after a similar system for the Soviet Armed Forces, provides hardened alternate facilities for more than 175,000 key party and government personnel throughout the USSR. Elaborate plans have also been made for the full mobilization of the national economy in support of a war effort. Reserves of vital materials are maintained, many in hardened underground structures. Redundant industrial facilities are in active production. Industrial and other economic facilities have been equip- ped with blast shelters for the work force, and detailed procedures have been developed for the relocation of selected plants and equip- ment. By planning for the survival of the essen- tial work force, the Soviets hope to reconstitute vital production programs using those indus- trial components that could be redirected or salvaged after an attack. In addition, the USSR has greatly empha- sized mobility as a means of enhancing the survivability of military assets. The SS-20 and SS-25, for example, are mobile. Rail-mobile de- ployment of the SS-X-24 is expected before the end of the decade. The Soviets are also develop- ing an extensive network of mobile command, control, and communications facilities. Soviet Statements on the U.S. Strategic Defense Initiative These extensive Soviet activities in strate- gic defense, combined with the large Soviet buildup in offensive forces over the past two decades, have been eroding the retaliatory ca- pabilities of U.S. strategic forces on which de- terrence has long rested. If the USSR in the future were unilaterally to add an effective ad- vanced defense against ballistic missiles to its offensive and other defensive forces, it would pose a very serious new threat to U.S. and allied security. The U.S. Strategic Defense Initiative is de- signed to counter the trend in the Soviets' favor. It is thus not unexpected that Soviet re- actions to the U.S. Strategic Defense Initiative have been strongly negative. Through an in- tensive, worldwide propaganda campaign, the USSR evidently hopes that it can dissuade the United States from pursuing this research pro- gram, thereby preserving the possibility of a Soviet monopoly in effective defenses against ballistic missiles - a monopoly that could give the USSR the uncontested damage-limiting first-strike capability that it has long sought. Thus, Soviet statements on the SDI must be seen in light of the extensive, long-term growth in Soviet offensive and defensive forces and of their major research effort to develop ad- vanced weapons for defense against ballistic missiles. They should also be viewed in light of comparable Soviet propaganda campaigns on other issues. The USSR engaged in a ma- jor propaganda effort in the late 1970s and early 1980s to preserve its monopoly in longer- range intermediate-range nuclear forces, and has adopted many of the same tactics to pre- vent the United States from acquiring an oper- ational ASAT system to balance its own. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 On April 22, 1983, a month after the Presi- dent's announcement of the Strategic Defense Initiative, a published letter signed by more than 200 senior Soviet scientists denouncing the initiative appeared in the New York Times. It is interesting and instructive to note that a number of the signatories have been instrumen- tal in the development of both traditional and advanced ballistic missile defensive systems: Petr D. Grushin, Vladimir S. Semenikhin, Fe- dor V. Bunkin, Yevgeniy P. Velikhov, Vsevolod S. Avduyevskiy, Aleksandr M. Prokhorov, and Nikolay G. Basov. Velikhov, for example, was for several years the director of the Insti- tute of Atomic Energy laboratories at Troitsk, Dr. Y.P. Velikhov has been a central figure in the development of the USSR's high energy laser weapons. As Chairman of the committee of Soviet Scientists in Defense of Peace and Against Nuclear War, Dr. Velikhov is also the leading Soviet scientific spokesman against the U.S. Strategic Defense Initiative. where lasers for strategic and tactical appli- cations are being developed. Avduyevskiy has long been involved with strategic weapons re- search and now has responsibility for a num- ber of projects concerned with the military use of space, including a space-based laser weapon. Other signatories have spent their careers developing strategic offensive weapons and other military systems: Vladimir N. Ch- elomey, Valentin P. Glushko, Aleksandr D. Nadiradze, and Viktor P. Makeyev in ICBMs and SLBMs; Oleg K. Antonov and Aleksandr S. Yakovlev in military aircraft; Nikolay Isanin in nuclear submarines; Yuliy B. Khariton in the Soviet military nuclear energy program; and Martin I. Kabachnik in chemical warfare. The U.S. Strategic Defense Initiative The U.S. Strategic Defense Initiative offers the possibility of a better, more stable de- terrence based increasingly on defenses that are survivable, militarily effective, and cost- effective relative to offensive forces. If our research shows that such defenses against bal- listic missiles are feasible, they would allow us to move from deterrence based solely on the threat of nuclear retaliation, toward enhanced deterrence characterized by greater reliance on defensive capabilities that threaten no one. The Strategic Defense Initiative is also a pru- dent and necessary response to the very active Soviet efforts in offensive and defensive forces. It responds directly to the ongoing and exten- sive Soviet anti-ballistic missile effort, includ- ing the existing Soviet deployments permitted under the ABM Treaty. The SDI research pro- gram provides a necessary and powerful deter- rent to any near-term Soviet decision to expand rapidly its ABM capability beyond that con- templated by the ABM Treaty. It also provides insurance against an eventual Soviet attempt to deploy an effective advanced system for de- fense against ballistic missiles unilaterally. SDI research complements our efforts to achieve significant, equitable, and verifiable re- ductions in nuclear forces. In the near term, we are seeking reductions of strategic and intermediate-range nuclear forces, and discus- sing defensive and space arms, in the U.S.- Soviet negotiations which opened in Geneva in March 1985. The United States and the Soviet Union have agreed that there is a fundamental relationship between offensive and defensive systems and that neither can be considered in isolation. In the longer term, if we were to deploy ad- vanced defenses against ballistic missiles, such defenses could increase significantly the incen- tives for further negotiated deep reductions in offensive nuclear forces because they could re- duce or eliminate the military utility of ballis- tic missiles. Such significant reductions would, in turn, serve to increase the effectiveness of defensive systems. The SDI research program emphasizes ad- vanced non-nuclear defensive technologies. It will provide to a future President and Con- gress, possibly in the early 1990s, the technical knowledge required for a decision on whether Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 to develop and later deploy advanced defensive systems. Extensive discussions with our allies would take place prior to any future decision to move beyond research to development and deployment. Any future deployment would also be a mat- ter for discussion and negotiation as appropri- ate with the Soviet Union, as provided in the ABM Treaty. Even now we are seeking to engage the Soviets at Geneva in a discussion of the relationship of offensive and defensive forces and of a possible future transition to greater reliance on defensive systems. While we could not allow a Soviet veto over a decision which would have such a major impact on U.S. and allied security, it is our in- tention and hope that - if new defensive tech- nologies prove feasible - we and the Soviets would be able both to move to a more defense- reliant balance. What we envision is thus just the opposite of an arms race or a search for mil- itary superiority. We seek instead an approach that would serve the security interests of the United States, our allies, the Soviet Union, and the world as a whole. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Annex Offensive Forces Soviet military doctrine and strategy call for superior offensive forces capable of executing a successful first strike. The Soviet buildup in offensive forces over the last two decades has been designed to move in that direction. Soviet strategic offensive forces introduced since 1971 include: ? four new types of intercontinental ballistic missiles (ICBMs) - the SS-17, 18, 19, and 25. In addition, the USSR probably has deployed the SS-16 in violation of the SALT II Treaty; ? five new types of ballistic missile-carrying submarines; ? four new types of submarine-launched ballistic missiles (SLBMs); ? five improved versions of existing SLBMs; ? long-range cruise missiles; and ? a new variant of the BEAR bomber carrying strategic air-launched cruise missiles. That buildup is all the more striking when compared to the relative restraint exercised by the U.S. in its acquisition of nuclear weapons systems during the same period. The number of strategic and tactical nuclear warheads in the U.S. stockpile peaked in 1967. We had one-third more nuclear weapons then than we have now. Moreover, the total explosive power (measured in megatonnage) of our nuclear weapons was four times greater in 1960 than it is today. Our latest B-52 bomber was built in 1962. Although we modernized the missiles our sub- marines carried with the POSEIDON C-3 in 1971 and TRIDENT I C-4 in 1979, we did not in- troduce a single new ballistic missile-carrying submarine from 1966 until 1981, when we be- gan deploying the TRIDENT submarine at the rate of about one a year. In fact, our ballistic missile submarine force declined by one-fourth between 1966 and 1981, from 41 boats to 31. During the time we were decreasing the num- ber of our SSBNs, the Soviet Union deployed 62 new ballistic missile-carrying submarines. Similarly, the U.S. began deploying its new- est ICBM, the MINUTEMAN III, fifteen years ago; today, we have fewer ICBMs than we did in 1967. By contrast, the Soviet Union has added about 800 ICBMs to its arsenal since that year. Of greatest concern for strategic stability has been the development and deploy- ment of the SS-18 and SS-19 ICBMs. Since the late 1970s, the USSR has deployed more than 300 SS-18s, each twice as large as the U.S. PEACEKEEPER/MX and carrying ten war- heads, and 360 SS-19s, each approximately the size of the PEACEKEEPER/MX and carrying six warheads. The Soviets already have enough hard-target-capable ICBM warheads today to attack all U.S. ICBM silos and launch con- trol centers and will have a larger number of hard-target capable warheads in the future. (A weapon with hard-target capability has suffi- cient accuracy and yield to destroy targets that have been hardened to withstand the effects of a nuclear detonation.) In addition to the rapid growth in its ICBM force, the Soviet Union is engaged in a major modernization and expansion of its strategic bomber and submarine forces. The bulk of So- viet strategic offensive nuclear warheads has traditionally been on ICBMs, while the U.S. has maintained a balanced force, with fewer than one-quarter of our strategic weapons on ICBMs. The growth in modern Soviet strate- gic offensive forces of all types is thus not only exacerbating the imbalance between U.S. and Soviet ICBMs, but also steadily eroding the traditional countervailing U.S. advantage in SLBMs and strategic bomber systems. When the SALT I Interim Agreement on Of- fensive Arms was signed in 1972, the USSR had roughly 2,300 strategic ballistic missile war- heads, and the throw-weight of its ballistic missile force was about 3 million kilograms. (Throw-weight is a basic measure of ballistic missile destructive capability and potential.) By the time the SALT II agreement was signed in 1979, the Soviet strategic arsenal had more than doubled to roughly 5,500 strategic bal- listic missile warheads with a ballistic missile throw-weight of about 4 million kilograms. To- day, the Soviet Union has over 8,000 strate- gic ballistic missile warheads and a ballistic missile throw-weight of about 12 million kilo- grams. Perhaps even more troubling is the fact that the USSR's offensive nuclear force buildup con- tinues unabated, with a large number of new systems at or nearing deployment. For exam- ple, the Soviets are: ? continuing production of the BEAR H bombers which carry the AS-15 long-range Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Introduction of Strategic Forces Systems by Year USSR SALT I and SALT 11 ABM Treaty .N M a f g g ~ W W pp W N N N N W WW W'~yW N{+1N W ~Q, W y yNyW WW yW 7 Wyy222 ' ETHAN GE ALLEN EORRGE G WASHINGTON W a r2 WW W'^y xa^r"u~xpx .. TYPHOON 2 I- f PEACE- KEEPER 1960 1972 1979 1985 1987 'Available information on the SS-16 is inconclusive, but indicates probable deployment air-launched cruise missile. They are also developing a new strategic bomber, the BLACKJACK, which, when deployed before the end of the decade, will be larger than either the U.S. B-1B or B-52; ? completing development of the SS-X-24 and have announced deployment of the SS-25 ICBM. The SS-25 violates the SALT II agreement, since it is a prohibited second new type of ICBM; ? deploying two new classes of nuclear- powered ballistic missile-carrying sub- marines (SSBNs), the DELTA IV and the TYPHOON, and associated SLBMs. They are also testing a new sea-launched cruise missile, the SS-NX-21. SS-NX-24 a ALCM SLCM Q F s M V } The combination of U.S. restraint and Soviet expansion and modernization of its strategic offensive forces means that U.S. forces are be- coming increasingly obsolete. We are therefore modernizing our strategic nuclear forces to en- sure the balance necessary for continued de- terrence. That program includes development of the PEACEKEEPER/MX ICBM, a smaller single-warhead ICBM (popularly known as MIDGETMAN), the B-1B bomber, an advanced technology bomber, and the TRIDENT II SLBM. We are also deploying long-range air- and sea-launched cruise missiles and TRIDENT SSBNs. Our strategic modernization program is essential not only for the military balance, but also to induce the Soviets to agree to nego- Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9 tiated offensive force reductions which would enable us to maintain the balance at far lower levels of armaments. The Soviet Union has also greatly expanded its nuclear forces of less-than-intercontinental range, which primarily threaten our friends and allies. The USSR has developed an en- tirely new generation of nuclear short-range ballistic missiles. Of gravest concern has been the creation and subsequent rapid expansion of the SS-20 longer-range intermediate-range missile force, which threatens our friends and allies in Europe and Asia. NATO had no equiv- alent systems when the USSR began to field this modern, mobile, highly accurate, triple- warhead missile. As of September 1985, the So- viets had deployed 441 SS-20s, with over 1,200 warheads. Not only is the SS-20 force continu- ing to grow, but the Soviets are also testing a modified version of the SS-20 which is ex- pected to be even more accurate. In contrast, NATO plans to deploy 572 single-warhead PER- SHING II and ground-launched cruise missiles and stands ready to reduce or reverse those de- ployments if we can reach an equitable, verifi- able arms reduction agreement with the USSR. Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88G01116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116ROO0700840013-9 Current Policy No. 717 Paul H. Nitze SDI: The Soviet Program United States Department of State Bureau of Public Affairs Washington, D.C. Following is an address by Ambassador Paul H. Nitze, Special Adviser to the President and the Secretary of State on Arms Control Matters, before the Chau- tauqua Conference on Soviet-American Relations, Chautauqua, New York, June 28, 1985. Soviet commentary on the U.S. Strate- gic Defense Initiative (SDI) research program has been strongly negative. The Soviets have accused us of expand- ing the arms race into a new area by ini- tiating "the militarization of space." In Geneva, they have demanded a ban on research, development, testing, and de- ployment of what they call "space-strike arms" and have conditioned progress in the negotiations on offensive nuclear force reductions on prior U.S. accept- ance of this ban. One might conclude from this Soviet commentary that the Soviet Union has no program comparable to our SDI. Such a conclusion would be far from correct. Soviet Strategic Defense Efforts Soviet military doctrine stresses that of- fensive and defensive forces must inter- act closely to achieve Soviet aims in any conflict. Accordingly, the Soviets are heavily involved in strategic defense, with programs that go far beyond re- search. In fact, over the last two dec- ades, the Soviet Union has spent roughly as much on strategic defense as it has on its massive offensive nuclear forces. As part of this huge effort, the Soviets have deployed around Moscow the world's only operational antiballistic missile (ABM) system, a system they are currently upgrading with a projected completion date of about 1987. They also have an indepth national air defense force, a vast political leadership survival program, and nationwide civil defense forces and programs. Further, they have been conducting a number of activities that are inconsist- ent with and tend to undermine the ABM Treaty. For example, their deploy- ment of a large phased-array ballistic missile tracking radar near Krasnoyarsk in Siberia constitutes a violation of the treaty. We are concerned that, in the aggregate, Soviet ABM-related activities could provide them the basis for deploy- ment of an ABM defense of their na- tional territory, which would also violate the treaty. Soviet strategic defense programs are not restricted to the more traditional approaches. The Soviets have also been pursuing, since the 1960s, research into advanced technologies for strategic de- fense. These technologies include high- energy lasers, particle-beam weapons, radio frequency weapons, and kinetic energy weapons. These are the same types of technologies being researched in the U.S. SDI program. Moreover, during this same period, the Soviets have had an active and expanding mili- tary space program. The Soviet version of SDI has been overlooked in the recent public debate: Indeed, taking advantage of the closed nature of Soviet society, Soviet strategic defense efforts have proceeded com- Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116ROO0700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116ROO0700840013-9 pletely free from debates of the sort that are occurring now in the West over the utility and implications of our program. Let me address the Soviet version of SDI in some detail. While some of the material I will cover is quite technical, I hope it will give you a better apprecia- tion of the extensive efforts the Soviets have been conducting for years. Soviet Progress in Advanced Defense Technologies High-Energy Laser Research. The Soviet Union's high-energy laser pro- gram began in the mid-1960s and has been much larger than the U.S. effort. The Soviets have built over a half-dozen major research and development facilities and test ranges, including some at the Sary Shagan missile test center where they also do traditional anti- ballistic missile work. They have over 10,000 scientists and engineers associated with the development of lasers for weapons. The Soviets have conducted research on the three types of gas lasers that the United States considers promising for weapons applications: the gas-dynamic laser, the electric discharge laser, and the chemical laser. They have also been working on other types of lasers that the United States had not seriously con- sidered for weapons applications until very recently. These include excimer and free-electron lasers. The Soviets are also pursuing related laser weapon technologies, such as efficient electrical power sources and high-quality optical components. U.S. ex- perts believe the Soviets are generally capable of supplying the necessary prime power, energy storage, and auxiliary components for most laser and other directed energy weapons. As evidence of this capability, the Soviets have de- veloped a very powerful rocket-driven generator, which has no counterpart in the West. The Soviets may have also achieved the capability to develop the necessary optical systems for laser weapons. The Soviet program has now pro- gressed beyond technology research, in some cases to the development of proto- type laser weapons. For the antisatel- lite-or ASAT-mission, the Soviets already have ground-based lasers at the Sary Shagan test site that could be used to interfere with U.S. satellites at low altitudes. Soviet programs have reached the point where they could begin con- struction of ground-based laser ASAT facilities at operational sites. These facilities could be available by the end of the 1980s and would greatly increase Soviet ASAT capabilities. Moreover, they could test prototype space-based laser ASAT weapons by the early 1990s, and, if their technology developments prove successful, they could deploy operational space-based lasers for ASAT purposes in the mid-1990s. For the ballistic missile defense-or BMD-mission, the Soviets could have prototypes for ground-based lasers by the late 1980s. Testing of the com- ponents for a large-scale operational system could begin in the early 1990s. With high priority and some significant technological risk, the Soviets could skip some testing steps and be ready to de- ploy a ground-based laser BMD system by the early to mid-1990s. The many dif- ficulties associated with fielding an operational system would normally re- quire much development time, however, and initial operational deployment is not likely in this century. The Soviets can be expected to pursue development of a space-based laser BMD system for possi- ble deployment after the year 2000. The Soviets have also begun to de- velop several high-energy laser weapons for air defense. These include lasers in- tended for air defense of high-value stra- tegic targets in the Soviet Union, for point defense of ships at sea, and for air defense of theater forces. Following past practice, they are likely to deploy air defense lasers to complement, rather than replace, interceptors and surface- to-air missiles, or SAMs. The strategic air defense laser is probably at least in the prototype stage of development and could be operational by the late 1980s. It most likely will be deployed in conjunc- tion with SAMs in a point defense role. The shipborne laser will probably not be operational until the early 1990s. The theater air defense laser may be opera- tional sometime sooner and is likely to be capable of structurally damaging air- craft at close ranges and producing electro-optical and eye damage at greater distances. Finally, the Soviets are developing an airborne laser. Such a laser could have several missions, including ASAT operations, protection of high-value air- craft, and protection against cruise missiles. Assuming a successful develop- ment effort, limited initial deployment could begin in the early 1990s. Particle-Beam Weapons. Since the early 1970s, the Soviets have had a re- search program designed to explore the technical feasibility of a particle-beam weapon in space. For the ASAT mission, they may be able to test a prototype space-based particle-beam weapon in- tended to disrupt satellite electronic equipment in the mid- to late 1990s. One designed to destroy satellites could be tested by the year 2000. Early in the next century, the Soviets could have a prototype space-based BMD system ready for testing. Radio Frequency Weapons. The Soviets have conducted research for decades on sources of high-power radio frequency-or RF-signals and the antennas that would be required to direct and focus the signals on distant targets. These signals have the potential to interfere with or destroy components of missiles, satellites, and reentry vehicles. In the 1990s, the Soviets could test a ground-based RF weapon capable of damaging satellites. A space-based RF antisatellite weapon will probably not be tested until after the year 2000. Kinetic Energy Weapons. In the area of kinetic energy weapons, the Soviets have a variety of longstanding research programs underway. These weapons use the high-speed collision of a small mass with the target as the kill mechanism. As early as 1966, the Soviets had an experimental gun that could shoot streams of particles of a heavy metal, such as tungsten, at velocities of over 60 kilometers per sec- ond in a vacuum. Current Soviet efforts include research and development of electromagnetic railguns to accelerate projectiles to ultrahigh velocities,' as well as other advanced systems. These piv- grams could result in the near term in a short-range space-based system useful for satellite or space station defense or for close-in attack by a maneuvering satellite. Longer range space-based systems could be developed as early as the mid-1990s. The Soviet Military Space Program In addition to their huge and compre- hensive program of research into ad- vanced strategic defense technologies, the Soviets have the world's most active military space program. This program dominates the Soviet Union's overall space effort. For example, in 1984 the Soviets conducted about 100 space launches. Of these, some 80% were Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116ROO0700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 purely military in nature, with much of the remainder serving both military and civil functions. By way of comparison, the total number of U.S. space launches in 1984 was about 20. The Soviets believe in the combined arms concept of warfare in which all types of forces are integrated into military operations to achieve the desired goals. Space systems play a ma- jor role in this equation. Soviet space systems dedicated to military missions include satellites that perform recon- naissance, missile launch detection and attack warning, command and control, and ASAT functions. Dual-purpose satel- lites that perform some civilian functions are used for communications, naviga- tional support, and weather prediction and monitoring. In the reconnaissance area, the United States has no counterpart to the Soviet ocean reconnaissance satellites, the EORSAT [electronic intelligence ocean reconnaissance satellite] and the nuclear-powered RORSAT [radar ocean reconnaissance satellite]. These Soviet satellites have the mission of locating and identifying U.S. and allied naval forces in open ocean areas and targeting them for destruction by Soviet antiship weapons. Four such satellites were launched in 1984. In the ASAT area, the Soviets have had the capability since 1971 to attack satellites in near-earth orbit with a ground-based orbital interceptor. Again, the United States has no comparable operational capability. Using a radar sensor and a pellet-type warhead, the in- terceptor can attack a target in orbit at various altitudes during the interceptor's first two revolutions. An intercept dur- ing the first orbit would minimize the time available for a target satellite to take evasive action. The interceptor can reach targets orbiting at altitudes of more than 5,000 kilometers, but it is probably intended for high-priority satellites at lower alti- tudes. It is launched from the Tyuratam space complex, where launch pads and storage space for interceptors and launch vehicles are available. Several in- terceptors could be launched each day. In addition to the orbital interceptors, the Soviets could also use their opera- tional ABM interceptors in a direct- ascent attack against low-orbiting satellites. Should the Soviets decide to deploy in space extremely large payloads, in- cluding components of a space-based ballistic missile defense, they would re- quire space boosters capable of placing in orbit thousands of tons per year. The two new boosters they are developing-a medium-lift vehicle comparable to our Titan and a heavy-lift vehicle com- parable to our Saturn V-will meet this requirement. These boosters should be available as early as the late 1980s. Finally, the Soviets have ambitious plans for their manned space programs. They plan to replace their current Salyut space 'stations with large space complexes, which could support 20 or more cosmonauts on a permanent basis. Such a complex would enhance their space-based military support and war- fighting capabilities. Missions could in- clude military research and develop- ment, reconnaissance, imagery interpre- tation, ASAT support operations, and BMD support operations. To ferry cosmonauts to this complex, as well as to place large payloads in orbit, the Soviets are developing their own version of the U.S. shuttle orbiter. They are also experimenting with a test vehicle that is apparently a scale model of a large, manned space plane. This plane's possi- ble missions include reconnaissance, crew transport, and ASAT operations. It also could be used as a manned space station defender. Soviet Disingenuousness Considering all of the foregoing, it be- comes apparent just how preposterous Soviet criticisms of the U.S. SDI pro- gram are. The United States is not ex- panding the military competition into new areas; the Soviets have been re- searching the same technologies for two decades. Likewise, the United States is not initiating "the militarization of space"; space has been militarized for many years, primarily by Soviet systems and programs. This Soviet disingenuousness becomes even more evident when one considers those who are taking advan- tage of our open society by leading the attack in the Western public arena on the U.S. SDI program. Within a month of President Reagan's 1983 speech that initiated SDI, a letter signed by a large group of Soviet scientists was published in the New York Times denouncing the program. A number of the signatories of this letter have, in fact, been instru- mental in Soviet programs researching both conventional and advanced ballistic missile defense technologies. Among these are Mr. Y. P. Velikhov, the Depu- ty Director of the Kurchatov Atomic Energy Institute, who is a central figure in Soviet laser and particle-beam weapon efforts; Mr. N. G. Basov and Mr. A. M. Prokhorov, who are both scientific ad- visers to laser weapon programs; and Mr. Avduyevskiy, who is responsible for a number of projects researching the military use of space, including a space- based laser weapon. Other signatories have spent their careers developing strategic offensive weapons and other military systems. Soviet Motives Why are the Soviets conducting this propaganda campaign? Clearly, they see the potential applications for advanced defensive technologies; otherwise they would not be investing so much effort and so many resources in this area. It is not unreasonable to conclude that they would like to continue to be the only ones pressing forward in this field. At a minimum, they want to keep the United States from outstripping them in such technologies. In this vein, the Soviet propaganda line against SDI is as predictable as it is hypocritical. The Soviets hope to foster a situation in which we would unilater- ally restrain our research effort, even though it is fully consistent with existing treaties. This would leave them with a virtual monopoly in advanced strategic defense research; they see this as the most desirable outcome. Such a virtual monopoly could be most dangerous for the West. Both sides have recognized for many years that of- fense and defense are vitally related to each other, that it is the balance be- tween the offense-defense mixes of the sides that is essential to keeping the peace. Unilateral restraint by the United States in the defense area would jeopar- dize this balance and could, therefore, potentially undermine our deterrent ability. If the United States proves unwill- ing to restrain itself unilaterally, the Soviets are prepared to impose an agreed ban on research "designed to Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9  Sanitized Copy Approved for Release 2010/12/01 : CIA-RDP88GO1116R000700840013-9 create space-strike arms." At worst, a mutually observed ban would leave them where they are today, unthreatened by potential U.S. technological advances and maintaining the only operational ABM and ASAT systems. The Soviets are already positioning themselves, how- ever, to avoid having such a ban apply equally to the research of both sides. They currently deny that any of their ef- forts fall within their definition of re- search "designed to create space-strike arms," while asserting that all of the U.S. SDI program fits within that defini- tion. Moreover, even were a research ban to be applied equally to the sides, given its inherent unverifiability and the closed nature of the Soviet Union-and particularly its scientific community compared to ours-the Soviets very well might be able unilaterally to continue their research on a clandestine basis. Conclusion We can expect the Soviets to continue to protest strongly and publicly about SDI and alleged U.S. designs to "militarize space," all the while denying that they are conducting similar programs. We must recognize this propaganda for what it is-the key element of an overall strategy to divide the United States from its allies and elicit from us uni- lateral concessions. By making clear to the Soviets that we have the political will to maintain the necessary military capabilities effectively to deter them- that is, that their propaganda campaign will not succeed in causing us to exercise unilateral restraint-we can establish the necessary conditions for the Soviets to consider a more forthcoming ap- proach to the negotiations in Geneva. In that event, the United States will be prepared, as it is now, for a serious discussion of how-should new defensive technologies prove feasible-our two sides could move jointly to a more stable strategic relationship, building upon the research efforts of both. ^ Published by the United States Department of State ? Bureau of Public Affairs Office of Public Communication ? Editorial Division ? Washington, D.C. ? July 1985 Editor: Cynthia Saboe ? This material is in the public domain and may be reproduced without permission; citation of this source is appreciated. 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