"Fission Science and Technology"
"Fission Science and Technology" provides a comprehensive and authoritative exploration of the principles, technologies, and future directions of nuclear fission. Beginning with the historical discovery and foundational science behind fission, the book delves into the quantum mechanical underpinnings, detailed behavior of fission fragments, and the energetics of the fission process. Readers will gain a nuanced understanding of both spontaneous and induced fission phenomena, as well as critical perspectives on the evolution of nuclear theory and experimental breakthroughs that have shaped the field.
The volume systematically examines the essential technologies and engineering required for modern nuclear reactors, including the characteristics and processing of fissile materials, fuel fabrication, enrichment, and innovative fuel cycles. It covers the intricacies of neutron physics, reactor kinetics, and advanced computational methods, while also addressing core reactor design, safety architectures, and risk assessment—illustrating how contemporary fission systems integrate robust safety, advanced materials, and cutting-edge computational intelligence. In-depth coverage is devoted to the management of fission products and radioactive waste, with forward-thinking approaches to long-term storage, waste minimization, and environmental protection.
Looking to the future, "Fission Science and Technology" explores the frontiers of advanced reactor concepts, from Generation IV systems and molten salt reactors to accelerator-driven technologies and fusion-fission hybrids. The text also addresses the pivotal role of nonproliferation, security architectures, and international collaboration in the safe stewardship of nuclear energy. Through its integration of scientific rigor, technological innovation, and societal considerations, this book serves as an indispensable reference for students, engineers, researchers, and policymakers engaged in the dynamic and critical field of nuclear fission.
