Political Fallout is the story of one of the first human-driven, truly global environmental crises—radioactive fallout from nuclear weapons testing during the Cold War—and the international response. Beginning in 1945, the United States, Britain, and the Soviet Union detonated hundreds of nuclear weapons in the atmosphere, scattering a massive amount of radioactivity across the globe. The scale of contamination was so vast, and radioactive decay so slow, that the cumulative effect on humans and the environment is still difficult to fully comprehend. The international debate over nuclear fallout turned global radioactive contamination into an environmental issue, eventually leading the nuclear superpowers to sign the landmark Partial Test Ban Treaty (PTBT) in 1963. Bringing together environmental history and Cold War history, Toshihiro Higuchi argues that the PTBT, originally proposed as an arms control measure, transformed into a dual-purpose initiative to check the nuclear arms race and radioactive pollution simultaneously. Higuchi draws on sources in English, Russian, and Japanese, considering both the epistemic differences that emerged in different scientific communities in the 1950s and the way that public consciousness around the risks of radioactive fallout influenced policy in turn. Political Fallout addresses the implications of science and policymaking in the Anthropocene—an era in which humans are confronting environmental changes of their own making.
The literature has been searched for references pertaining to high energy reactions of interest to nuclear chemists. Nuclear Science Abstracts was the main source of references and wherever possible the complete abstract was retained.
Nuclear Graphite focuses on the development and uses of nuclear graphite, including machining practices, manufacture, nuclear properties and structure, radiation, and electrical resistance. The selection first discusses the applications of graphite in the nuclear industry, machining practices, and manufacture. Discussions focus on early, current, and future applications of graphite, impregnation, graphitization, purification, general machining techniques, and equipment and methods in the nuclear industry. The book then examines the structure and nuclear and properties of graphite. The text evaluates radiation-induced structural and dimensional changes; radiation effects on electrical and thermal properties; and radiation effects on mechanical properties. Topics include radiation effects on crystal structure, electrical resistance, thermoelectric power, magnetoresistance, coefficient of friction, irradiation under stress, and elastic moduli of nuclear graphite. The book also ponders on stored energy, annealing radiation effects, and gas-graphite systems. The selection is a dependable source of data for readers interested in the applications of nuclear graphite.