The term laser weapon implies the use of a laser as part of a so-called directed energy weapon (DEW). In that case, the laser energy is causing the target damage. Military research led to the development of experimental lasers with continuous output powers up to 140 kW in 1966 and two Megawatts in 1980. However, those systems were huge and not part of laser weapon systems.

Since the 1980s the development in the military continued. Remarkably, civilian lasers, developed for industrial machining, have now reached output powers, which can be useful for DEW applications, too. Recently, several prototypes came into operation. On the one hand, there are industry-funded projects that use civilian of-the-shelf industrial lasers. On the other hand, there is government-funded research, which aims at high power laser systems. Major defense companies in the United States and elsewhere are working on both tracks.

Anti-satellite (ASAT) laser engagements would be a revolutionary laser application, as they would in principle enable an option of attacks on satellites with only minor debris. At the moment, attacking satellites implies the use of missiles with kinetic or explosive warheads. A kinetic impact creates debris, which would be harmful to the attacker's space assets, too. For that reason, space faring nations are discouraged from using kinetic energy attacks.

This fact enacts a kind of "natural" arms control. Lasers could change this situation, if they are used to heat up satellites just to a point where their electronics are damaged or only to impair their sensors. Hence, attacks on satellites would be more likely, if laser DEW with anti-satellite capabilities are fielded in peacetime. In a time of crisis, this would create additional political instabilities, as satellites are important early warning and reconnaissance assets.  A deployment of laser ASATs could eventually lead to an arms race in space. In order to make this scenario less likely arms control mechanism could be implemented.

This talk will focus on the technological background of laser ASATs. After a short introduction into recent technological developments, it will be examined whether current laser technology has the ability to endanger satellites. To achieve this, a physics-based method has been devised to assess laser DEW engagements. Damage mechanisms as well as possible distinctions between industrial laser setups and laser weapons will be examined in greater detail.  Options for controlling laser ASATs and obstacles for the implementations of such controls will be introduced.

Jan Stupl is a Postdoctoral Fellow at CISAC. His research concerns the current developments in laser technology regarding a possible application of lasers as an anti-satellite weapon (ASAT), as well as the proliferation of ballistic missiles. The research on laser ASATs focuses on damage mechanisms, the potential sources and countries of origin of laser ASATs and ways to curb their international proliferation. Regarding missiles, Jan is interested in the methods which are used to acquire ballistic missiles and possible ways to control this process.

Before coming to CISAC, Jan was a Research Fellow at the Institute of Peace Research and Security Policy (IFSH) at the University of Hamburg, Germany. His PhD dissertation was a physics-based analysis of future of High Energy Lasers and their application for missile defense and focused on the Airborne Laser missile defense system. This work was jointly supervised by the IFSH, the Institute of Laser and System Technologies at Hamburg University of Technology and the physics department of Hamburg University, where he earned his PhD in 2008.

Jan studied physics at the Friedrich-Schiller-University in Jena, Germany and at Warwick University in Coventry, UK. He concluded his undergraduate physics degree with a thesis in laser physics, receiving a German National Diploma in Physics in 2004. His interest in security policy and international politics was fuelled by an internship at the United Nations in New York in 2003.

Clay Moltz joined the National Security Affairs faculty of the Naval Postgraduate School (NPS) in June 2007. Since November 2008, he has held a joint appointment with the Space Systems Academic Group at NPS. He currently teaches Space and National Security, Nuclear Strategy and National Security, International Relations, and Northeast Asian Security. Prior to his appointment at NPS, he served for 14 years in various positions at the Monterey Institute’s Center for Nonproliferation Studies, including: deputy director from 2003-2007, director of the Newly Independent States Nonproliferation Program from 1998-2003, and founding editor of The Nonproliferation Review from 1993-98. He was also a faculty member in the Monterey Institute’s Graduate School of International Policy Studies.

Dr. Moltz received his Ph.D. and M.A. in Political Science from the University of California, Berkeley. He also holds an M.A. in Russian and East European Studies and a B.A. in International Relations (with Distinction) from Stanford University. Dr. Moltz worked previously as a staff member in the U.S. Senate and has served as a consultant to the NASA Ames Research Center, the Department of Energy’s National Nuclear Security Administration, and the Department of Defense’s Office of Net Assessment. He held prior academic positions at Duke University and at the University of California, San Diego.

This talk will address alternative options for European ballistic missile defense, including the now cancelled Polish-Czech option and the recently announced Obama plan for a phased deployment of Standard Missile 3 interceptors in and around Europe. This talk will also address recent Iranian progress in developing medium-range ballistic missiles and possible missile defense cooperation with Russia.

Dean Wilkening is a Senior Research Scientist at the Center for International Security and Cooperation at Stanford University. He holds a Ph.D. in physics from Harvard University and worked at the RAND Corporation prior to coming to Stanford. His major research interests include nuclear strategy and policy, arms control, the proliferation of nuclear and biological weapons, bioterrorism, ballistic missile defense, and energy and security. His most recent research focuses on the broad strategic and political implications of ballistic missile defense deployments in Northeast Asia, South Asia and Europe. Prior work focused on the technical feasibility of boost-phase ballistic missile defense interceptors. His recent work on bioterrorism focuses on understanding the scientific and technical uncertainties associated with predicting the outcome of hypothetical airborne biological attacks and the human effects of inhalation anthrax, with the aim of devising more effective civil defenses. He has participated in, and briefed, several US National Academy of Science committees on biological terrorism and consults for several US national laboratories and government agencies.

"I think that, by and large, the managers wouldn't know a good technique if it hit them in the face." The prominent computer scientist Alan Perlis spoke these words at a second NATO-sponsored Software Engineering conference in 1969. He underscored a conflict that would persist in the decade that followed that ill-tempered meeting, as computer professionals organized in the name of "software engineering," many sponsored by the U.S. defense department. Yet software cost overruns are frequent, and glitches occasionally turn deadly, leading many to argue that "software engineering" is not yet worthy of the name.
 
How should we understand the emergence of software engineering: the agendas of its proponents, sources of controversy, and its relationship to diverse defense department interests, including security, reliability, and timeliness, and costs? This chapter-in-progress addresses this question using both qualitative historical materials and social network data. The Defense Department's interest in software research was nurtured by budgetary cuts that followed anti-war protests in the early 1970, making economics a dominant, if controversial theme in "software engineering" research. Debates about the meaning and direction of software engineering often invoked binary divisions, between managers and technical people, industrialists and academics, pragmatists and theoreticians. After describing these debates from the ground up, I use network analysis to provide bird's eye view: to what extent were commonly evoked dualisms reflected in practices of publication, and how did this change as the field became institutionalized? More broadly, can network analysis contribute meaningfully to a historical account employing "thick description," and if so how?

Rebecca Slayton is a lecturer in the Science, Technology and Society Program at Stanford University and a CISAC affiliate. In 2004-2005 she was a CISAC science fellow. Her research examines how technical judgments are generated, taken up, and given significance in international security contexts. She is currently working on a book which uses the history of the U.S. ballistic missile defense program to study the relationships between and among technology, expertise, and the media. Portions of this work have been published in journals such as History and Technology and have been presented at academic conferences. As a postdoctoral fellow in the Science, Technology, and Society Program at the Massachusetts Institute of Technology, in 2004 she completed an NSF-funded project entitled Public Science: Discourse about the Strategic Defense Initiative, 1983-1988.

As a physical chemist, she developed ultrafast laser experiments in condensed matter systems and published several articles in physics journals. She also received the AAAS Mass Media Science and Engineering Fellowship in 2000, and has worked as a science journalist for a daily paper and for Physical Review Focus. She earned her doctorate in chemistry from Harvard University in 2002.

Eric Roberts, after receiving his Ph.D. in Applied Mathematics from Harvard University in 1980, taught at Wellesley College from 1980-85, where he chaired the Computer Science Department. From 1985-90, he was a member of the research staff at Digital Equipment Corporation’s Systems Research Center in Palo Alto, California, where he conducted computer science research, focusing on programming tools for multiprocessor architectures. In September 1990, Roberts joined the Stanford faculty, where he is now Professor of Computer Science and the John A. and Cynthia Fry Gunn University Fellow in Undergraduate Education.

From 1990 to 2002, Professor Roberts was Associate Chair and Director of Undergraduate Studies for Computer Science. In that capacity, he was the principal architect of Stanford’s introductory programming sequence, which for many years held the distinction of being the largest course at Stanford. He has also written four computer science textbooks that are used at many colleges and universities throughout the world. His research focuses on computer science education, particularly for underserved communities. From 1998 to 2005, Roberts was Principal Investigator for the Bermuda Project, which developed the computer science curriculum for Bermuda’s public secondary schools.

North Korea’s nuclear weapon test in October 2006 and the subsequent “debate” in Japan about whether or not to ponder its own nuclear future brought renewed attention to the subject of Japan and nuclear weapons.  Pundits and policy makers in both the United States and Japan contemplated the implications of Pyongyang’s nuclear breakout, and many wondered if this marked the beginning of fundamental change in Japanese thinking on these issues.  Just as North Korea’s long-range missile test over Japanese airspace in 1998 was a major catalyst leading to Japan’s full-fledged embrace of America’s missile defense (MD) development program a few years later, might the 2006 nuclear test eventually prove to be a similar watershed moment in Japanese defense policy?  Would there be a rising tide of Japanese sentiment in favor of reexamining the three non-nuclear principles of non-possession, non-manufacture, and non-introduction? 

In pursuit of answers to these questions, the Institute for Foreign Policy Analysis (IFPA) conducted an extended research effort over the past two years to examine not only Japan’s propensity and capacity to “go nuclear,” but also to explore the overarching issue of how deterrence is functioning and changing in the context of the U.S.-Japan alliance.  It is these latter questions in particular regarding deterrence and extended deterrence that proved most interesting and, we think, particularly important to U.S. policy makers, given the dramatic changes underway in the regional security environment in East Asia and relevant proposals in the areas of non-proliferation and arms control.  Mr. Schoff's presentation will describe the results of IFPA's study and offer steps that the allies can take to reshape extended deterrence for the twenty-first century in ways that strengthen and diversify the bilateral relationship, and ultimately contribute to regional stability and prosperity.

About the Speaker:

James L. Schoff is the Associate Director of Asia-Pacific Studies at the Institute for Foreign Policy Analysis (IFPA) in Cambridge, MA, where he specializes in East Asian security issues, U.S. alliance relations, international crisis management cooperation, and regional efforts to stem WMD proliferation. He also contributes to IFPA’s U.S. government and military contract work relating to East Asia. Some of his recent publications include Realigning Priorities: The U.S.-Japan Alliance and the Future of Extended Deterrence (IFPA 2009); Nuclear Matters in North Korea: Building a Multilateral Response for Future Stability in Northeast Asia (Potomac Books 2008) (co-author); In Times of Crisis: Global and Local Civil-Military Disaster Relief Coordination in the United States and Japan (IFPA, 2007); “Transformation of the U.S.-Japan Alliance,” in The Fletcher Forum of World Affairs (Winter 2007); Political Fences and Bad Neighbors: North Korea Policy Making in Japan and Implications for the United States (IFPA, 2006); and Tools for Trilateralism: Improving U.S.-Japan-Korea Cooperation to Manage Complex Contingencies (Potomac Books, 2005).

Mr. Schoff joined IFPA in 2003, after serving as the program officer in charge of policy studies at the United States-Japan Foundation. Prior to that he was the business manager for Bovis Japan and Bovis Asia Pacific, and international construction and project management firm. Mr. Schoff graduated from Duke University and earned an M.A. in International Relations from The Johns Hopkins University School for Advanced International Studies (SAIS). He also studied for one year at International Christian University (ICU) in Tokyo, Japan, and he lectured at Boston University in 2007.

Kelly Moore is Associate Professor of Sociology and Affiliate of Women's Studies at the University of Cincinnati.  She is the author of Disrupting Science: Social Movements, American Scientists, and the Politics of the Military, 1945-1975 (Princeton University Press, 2008), and the co-editor of The New Political Sociology of Science: Institutions, Networks, and Power (University of Wisconsin Press, 2006).   Her articles have appeared in Research in Organizational Sociology, American Journal of Sociology and other journals.  She currently serves as Chair of the American Sociological Association section on Science, Knowledge and Technology, and is writing a book about neoliberalism, food, and nutrition in U.S. from 1980 to 2005. 

Rebecca Slayton is a lecturer in the Science, Technology and Society Program at Stanford University and a CISAC affiliate. In 2004-2005 she was a CISAC science fellow. Her research examines how technical judgments are generated, taken up, and given significance in international security contexts. She is currently working on a book which uses the history of the U.S. ballistic missile defense program to study the relationships between and among technology, expertise, and the media. Portions of this work have been published in journals such as History and Technology and have been presented at academic conferences. As a postdoctoral fellow in the Science, Technology, and Society Program at the Massachusetts Institute of Technology, in 2004 she completed an NSF-funded project entitled Public Science: Discourse about the Strategic Defense Initiative, 1983-1988.

As a physical chemist, she developed ultrafast laser experiments in condensed matter systems and published several articles in physics journals. She also received the AAAS Mass Media Science and Engineering Fellowship in 2000, and has worked as a science journalist for a daily paper and for Physical Review Focus. She earned her doctorate in chemistry from Harvard University in 2002.