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This conference highlights recent achievements in high energy density physics. Topics included are: shock waves and high intensive processes; convergent flows and collapsing cavities; high explosives; detonation and explosion phenomena (chemical and thermonuclear); thermodynamic and transport properties of matter (experiments and theory); dense plasma properties; intensive electromagnetic processes; pulsed electric currents and strong magnetic fields; lasers and particle beams and their interaction with matter; hydrodynamic instability and turbulent mixing; as well as mathematical models.
The U.S. National Academies (NAS) and the Russian Academy of Sciences (RAS), building on a foundation of years of interacademy cooperation, conducted a joint project to identify U.S. and Russian views on what the international nuclear security environment will be in 2015, what challenges may arise from that environment, and what options the U.S. and Russia have in partnering to address those challenges. The project's discussions were developed and expanded upon during a two-day public workshop held at the International Atomic Energy Agency in November 2007. A key aspect of that partnership may be cooperation in third countries where both the U.S. and Russia can draw on their experiences over the last decade of non-proliferation cooperation. More broadly, the following issues analyzed over the course of this RAS-NAS project included: safety and security culture, materials protection, control and accounting (MPC&A) best practices, sustainability, nuclear forensics, public-private partnerships, and the expansion of nuclear energy.
The book describes the scale, benefits and costs of military research and development. It discusses the process of converting military R&D to civilian applications, and examines specific opportunities for, and obstacles to, conversion in the USA, Russia, France, Germany, and the UK. Among a number of case studies, senior scientists from US and Russian nuclear weapons laboratories debate the futures for these massive complexes. Looking to the future, the dual military/civilian nature of technology is discussed.
"In the aftermath of the Soviet Union's breakup into fifteen independent states, the governments of the United States, the European Community, Japan, and Russia established the International Science and Technology Center in Moscow to address the dangers of nuclear scientists "on the loose." The purpose of the ISTC (also known as the Moscow Science Center) was to prevent the illicit flow of dangerous weapons expertise out of the former Soviet Union by helping its underemployed nuclear, biological, chemical, and aerospace weapons scientists redirect their skills to peaceful civilian endeavors. Since its creation in 1994, the ISTC has provided more than $1.3 billion to support 2,740 projects in...
The Natural Resources Defense Council once again provides the definitive account of the current status of Russian nuclear weapons. Taking advantage of previously unavailable information the authors describe the origins, growth, and decline of the massive Soviet nuclear weapons production complex-the places involved in the recent headline-making epi