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Nuclear Methods in Science and Technology (Series In Fundamental And Applied Nuclear Physics Ser.)
by Yuri M. TsipenyukThe application of nuclear physics methods is now widespread throughout physics, chemistry, metallurgy, biology, clinical medicine, geology, and archaeology. Accelerators, reactors, and various instruments that have developed together with nuclear physics have often been found to offer the basis for increasingly productive and more sensitive analytical techniques.Nuclear Methods in Science and Technology provides scientists and engineers with a clear understanding of the basic principles of nuclear methods and their potential for applications in a wide range of disciplines. The first part of the book covers the major points of basic theory and experimental methods of nuclear physics, emphasizing concepts and simple models that give a feel for the behavior of real systems. Using many examples, the second part illustrates the extraordinary possibilities offered by nuclear methods. It covers the Mossbauer effect, slow neutron physics, activation analysis, radiography, nuclear geochronology, channeling effects, nuclear microprobe, and numerous other topics in modern applied nuclear physics. The book explores applications such as tomography, the use of short-lived isotopes in clinical diagnoses, and nuclear physics in ecology and agriculture. Where alternative nonnuclear analytical techniques are available, the author compares the relevant nuclear method, enabling readers to judge which technique may be most useful for them. Complete with a bibliography and extensive reference list for readers who want to delve deeper into a particular topic, this book applies various methods of nuclear physics to a wide range of disciplines.
Nuclear Non-Proliferation in International Law - Volume IV: Human Perspectives On The Development And Use Of Nuclear Energy
by Jonathan L. Black-Branch Dieter FleckThis fourth volume in the book series on Nuclear Non-Proliferation in InternationalLaw focuses on human perspectives regarding the development and use of nuclearenergy; the need for regional solutions; and recent activities towards prohibiting andabolishing nuclear weapons.Jonathan L. Black-Branch is Dean of Law and Professor of International and ComparativeLaw; Bencher of the Law Society of Manitoba; JP and Barrister (England & Wales);Barrister & Solicitor (Manitoba); and, Chair of the International Law Association (ILA)Committee on Nuclear Weapons, Non- Proliferation & Contemporary International Law.Dieter Fleck is Former Director International Agreements & Policy, Federal Ministryof Defence, Germany; Member of the Advisory Board of the Amsterdam Center forInternational Law (ACIL); and Rapporteur of the International Law Association (ILA)Committee on Nuclear Weapons, Non- Proliferation & Contemporary International Law.
Nuclear Nonproliferation
by Philip MarguliesNuclear Nonproliferation is part of the Global Issues series, which is designed to be a first-stop resource for research on the key challenges facing the world today.
Nuclear Oncology
by Duccio Volterrani H. William Strauss Giuliano Mariani Steven M. LarsonThis book provides the reader with a comprehensive understanding of both the basic principles and the clinical applications of nuclear oncology imaging techniques. The authors have assembled a distinguished group of leaders in the field who provide valuable insight on the subject. The book also includes major chapters on the cancer patient and the pathophysiology of abnormal tissue, the evaluation of co-existing disease, and the diagnosis and therapy of specific tumors using functional imaging studies. Each chapter is heavily illustrated to assist the reader in understanding the clinical role of nuclear oncology in cancer disease therapy and management.
Nuclear Physics
by Anwar KamalThis textbook explains the experimental basics, effects and theory of nuclear physics. It supports learning and teaching with numerous worked examples, questions and problems with answers. Numerous tables and diagrams help to better understand the explanations. A better feeling to the subject of the book is given with sketches about the historical development of nuclear physics. The main topics of this book include the phenomena associated with passage of charged particles and radiation through matter which are related to nuclear resonance fluorescence and the Moessbauer effect. , Gamov's theory of alpha decay, Fermi theory of beta decay, electron capture and gamma decay. The discussion of general properties of nuclei covers nuclear sizes and nuclear force, nuclear spin, magnetic dipole moment and electric quadrupole moment. Nuclear instability against various modes of decay and Yukawa theory are explained. Nuclear models such as Fermi Gas Model, Shell Model, Liquid Drop Model, Collective Model and Optical Model are outlined to explain various experimental facts related to nuclear structure. Heavy ion reactions, including nuclear fusion, are explained. Nuclear fission and fusion power production is treated elaborately.
Nuclear Physics
by John LilleyThis title provides the latest information on nuclear physics. Based on a course entitled Applications of Nuclear Physics. Written from an experimental point of view this text is broadly divided into two parts, firstly a general introduction to Nuclear Physics and secondly its applications.* Includes chapters on practical examples and problems* Contains hints to solving problems which are included in the appendix* Avoids complex and extensive mathematical treatments* A modern approach to nuclear physics, covering the basic theory, but emphasising the many and important applications
Nuclear Physics
by The Committee on the Assessment of Outlook for Nuclear PhysicsThe principal goals of the study were to articulate the scientific rationale and objectives of the field and then to take a long-term strategic view of U. S. nuclear science in the global context for setting future directions for the field. Nuclear Physics: Exploring the Heart of Matter provides a long-term assessment of an outlook for nuclear physics. The first phase of the report articulates the scientific rationale and objectives of the field, while the second phase provides a global context for the field and its long-term priorities and proposes a framework for progress through 2020 and beyond. In the second phase of the study, also developing a framework for progress through 2020 and beyond, the committee carefully considered the balance between universities and government facilities in terms of research and workforce development and the role of international collaborations in leveraging future investments. Nuclear physics today is a diverse field, encompassing research that spans dimensions from a tiny fraction of the volume of the individual particles (neutrons and protons) in the atomic nucleus to the enormous scales of astrophysical objects in the cosmos. Nuclear Physics: Exploring the Heart of Matter explains the research objectives, which include the desire not only to better understand the nature of matter interacting at the nuclear level, but also to describe the state of the universe that existed at the big bang. This report explains how the universe can now be studied in the most advanced colliding-beam accelerators, where strong forces are the dominant interactions, as well as the nature of neutrinos.
Nuclear Physics
by W. HeisenbergFrom the Nobel Prize winning physicist who developed the famous uncertainty principle, Nuclear Physics provides an in-depth look at the study of the atom. The book was compiled from a series of Heisenberg s lectures on the subject, and it is detailed and accessible enough for anyone interested in the subject. Heisenberg begins with a short history of atomic physics before delving into the theory of the processes and reactions within the atom. Nuclear Physics is an essential book to understanding the atom, giving readers an unparalleled look at nuclear physics from one of the greatest scientific minds of the twentieth century. A controversial WWII figure, Werner Heisenberg was a German physicist. Born in 1901 to an academic family, Heisenberg was interested in scientific and philosophical pursuits from a young age. After graduating from the University of Munich, where he studied under physicist Arthur Sommerfield, Heisenberg went on to establish a career in the study of atomic and particle theory. He won the Nobel Prize in 1932 for his Uncertainty Principle. Heisenberg was one of the top German scientists during World War II, and he worked as the director of the German Uranium Project developing an atomic bomb for Germany. He did not succeed in this effort, however, before the end of the war. He was incarcerated from 1945 46 for his role in the Nazi regime, but in the 50s and 60s, Heisenberg continued to contribute his research to the field of nuclear physics. He retired in 1970 and resided in Munich until his death in 1973.
Nuclear Physics
by W. HeisenbergFrom the Nobel Prize-winning physicist who developed the famous uncertainty principle, Nuclear Physics provides an in-depth look at the study of the atom. The book was compiled from a series of Heisenberg's lectures on the subject, and is detailed and accessible enough for anyone interested in the subject. Heisenberg begins with a short history of atomic physics before delving into the theory of the processes and reactions within the atom. Nuclear Physics is an essential book to understanding the atom, giving readers an unparalleled look at nuclear physics from one of the greatest scientific minds of the twentieth century.
Nuclear Physics 1: Nuclear Deexcitations, Spontaneous Nuclear Reactions
by Ibrahima SakhoThis book presents the foundations of nuclear physics, covering several themes that range from subatomic particles to stars. Also described in this book are experimental facts relating to the discovery of the electron, positron, proton, neutron and neutrino. The general properties of nuclei and the various nuclear de-excitation processes based on the nucleon layer model are studied in greater depth. This book addresses the conservation laws of angular momentum and parity, the multipolar transition probabilities E and M, gamma de-excitation, internal conversion and nucleon emission de-excitation processes. The fundamental properties of α and β disintegrations, electron capture, radioactive filiations, and Bateman equations are also examined. Nuclear Physics 1 is intended for high school physics teachers, students, research teachers and science historians specializing in nuclear physics.
Nuclear Physics 2: Radiochronometers and Radiopharmaceuticals
by Ibrahima SakhoNuclear Physics 2 explores the applications of various radioisotopes for dating and nuclear medicine imaging. It introduces the theoretical and experimental facts from the observation of the red shift in the spectrum of galaxies (1913), and the discovery of the cosmic microwave background (1965) that led to the validation of the Big Bang model, through which all known chemical elements are created via nucleosynthesis processes. This introduction is followed by a description of the nuclear reactions involved in primordial, stellar, and explosive. The principles of carbon-14, potassium-argon, uranium-thorium and uranium-protactinium dating, along with the principles of lead-210, caesium-137 and beryllium-7 radiochronometers applied to dating, are also described. An overview of the birth of nuclear medicine is given, from the first use of radioisotopes as tracers in plant biology in 1913, to the development of Positron Emission Tomography (PET) in 1975. The method of synthesis of radiopharmaceuticals, quality control of radiopharmaceuticals and the experimental methods of the determination of radiochemical purity are presented. The description of the principles of PET and Single-Photon Emission Tomography (SPECT), the presentation of the different radioisotopes used in TEMPS and PET, as well as the presentation of the main scintigraphies and their uses in nuclear medicine conclude the topics studied.
Nuclear Physics 3: Radiopharmaceuticals Used in Nuclear Medicine (ISTE Invoiced)
by Ibrahima SakhoNuclear Physics 3 presents the applications of various radioisotopes in nuclear medicine, with a focus on radiological imaging methods such as X-rays, γ scintigraphy – PET – MRI and ultrasound, which do not exploit the properties of radiopharmaceuticals. The book then presents the physicochemical and pharmacological properties of radiopharmaceuticals labeled with 99mTc, 201Tl, 18mKr, 18F and the radioisotopes 123I, 125I and 131I used in nuclear medicine. The production chains for the radiotracers studied, as well as their main emissions, are then described in detail, followed by a study of the clearance mechanisms of the radiopharmaceuticals under consideration. Finally, the book describes the principles of myocardial, pulmonary, bone, thyroid, renal and gastric emptying scans using the properties of the radiotracers studied, as well as the principles of prostate brachytherapy using iodine-125 implants and prostate chemotherapy.
Nuclear Physics in a Nutshell (In a Nutshell #4)
by Carlos A. BertulaniNuclear Physics in a Nutshell provides a clear, concise, and up-to-date overview of the atomic nucleus and the theories that seek to explain it. Bringing together a systematic explanation of hadrons, nuclei, and stars for the first time in one volume, Carlos A. Bertulani provides the core material needed by graduate and advanced undergraduate students of physics to acquire a solid understanding of nuclear and particle science. Nuclear Physics in a Nutshell is the definitive new resource for anyone considering a career in this dynamic field. The book opens by setting nuclear physics in the context of elementary particle physics and then shows how simple models can provide an understanding of the properties of nuclei, both in their ground states and excited states, and also of the nature of nuclear reactions. It then describes: nuclear constituents and their characteristics; nuclear interactions; nuclear structure, including the liquid-drop model approach, and the nuclear shell model; and recent developments such as the nuclear mean-field and the nuclear physics of very light nuclei, nuclear reactions with unstable nuclear beams, and the role of nuclear physics in energy production and nucleosynthesis in stars. Throughout, discussions of theory are reinforced with examples that provide applications, thus aiding students in their reading and analysis of current literature. Each chapter closes with problems, and appendixes address supporting technical topics.
Nuclear Physics of Stars
by Christian IliadisMost elements are synthesized, or "cooked", by thermonuclear reactions in stars. The newly formed elements are released into the interstellar medium during a star's lifetime, and are subsequently incorporated into a new generation of stars, into the planets that form around the stars, and into the life forms that originate on the planets. Moreover, the energy we depend on for life originates from nuclear reactions that occur at the center of the Sun. Synthesis of the elements and nuclear energy production in stars are the topics of nuclear astrophysics, which is the subject of this book. It presents nuclear structure and reactions, thermonuclear reaction rates, experimental nuclear methods, and nucleosynthesis in detail. These topics are discussed in a coherent way, enabling the reader to grasp their interconnections intuitively. The book serves both as a textbook for advanced undergraduate and graduate students, with worked examples and end-of-chapter excercises, but also as a reference book for use by researchers working in the field of nuclear astrophysics.
Nuclear Physics with Polarized Particles
by Hans Paetz gen. SchieckThe measurement of spin-polarization observables in reactions of nuclei and particles is of great utility and advantage when the effects of single-spin sub-states are to be investigated. Indeed, the unpolarized differential cross-section encompasses the averaging over the spin states of the particles, and thus loses details of the interaction process. This introductory text combines, in a single volume, course-based lecture notes on spin physics and on polarized-ion sources with the aim of providing a concise yet self-contained starting point for newcomers to the field, as well as for lecturers in search of suitable material for their courses and seminars. A significant part of the book is devoted to introducing the formal theory--a description of polarization and of nuclear reactions with polarized particles. The remainder of the text describes the physical basis of methods and devices necessary to perform experiments with polarized particles and to measure polarization and polarization effects in nuclear reactions. The book concludes with a brief review of modern applications in medicine and fusion energy research. For reasons of conciseness and of the pedagogical aims of this volume, examples are mainly taken from low-energy installations such as tandem Van de Graaff laboratories, although the emphasis of present research is shifting to medium- and high-energy nuclear physics. Consequently, this volume is restricted to describing non-relativistic processes and focuses on the energy range from astrophysical energies (a few keV) to tens of MeV. It is further restricted to polarimetry of hadronic particles.
Nuclear Physics: Out Of My Later Years, Scientific Autobiography, And Nuclear Physics
by W. HeisenbergThe Nobel Prize–winning physicist offers a fascinating popular introduction to nuclear physics from early atomic theory to its transformative applications. Theoretical physicist Werner Heisenberg is famous for developing the uncertainty principle, which bears his name, and for his pioneering work in quantum mechanics. A central figure in the development of the atomic bomb and a close colleague of Albert Einstein, Heisenberg wrote Nuclear Physics &“for readers who, while interested in natural sciences, have no previous training in theoretical physics.&” Compiled from a series of his lectures on the subject, Heisenberg begins with a short history of atomic physics before delving into the nature of nuclear forces and reactions, the tools of nuclear physics, and its world-changing technical and practical applications. Nuclear Physics is an ideal book for general readers interested in learning about some of the most significant scientific breakthroughs of the twentieth century.
Nuclear Physics: Present and Future
by Walter GreinerState-of-the-art survey by leading experts in the field. Major foci are superheavy nuclei and neutron-rich exotic nuclei. In addition new developments in nuclear fission and nuclear cluster decay are shown. Finally developments in relativistic heavy ion collisions and the physics of supercritical fields are detailed.
Nuclear Physics: The Core of Matter, The Fuel of Stars
by National Research CouncilDramatic progress has been made in all branches of physics since the National Research Council's 1986 decadal survey of the field. The Physics in a New Era series explores these advances and looks ahead to future goals. The series includes assessments of the major subfields and reports on several smaller subfields, and preparation has begun on an overview volume on the unity of physics, its relationships to other fields, and its contributions to national needs.Nuclear Physics is the latest volume of the series. The book describes current activity in understanding nuclear structure and symmetries, the behavior of matter at extreme densities, the role of nuclear physics in astrophysics and cosmology, and the instrumentation and facilities used by the field. It makes recommendations on the resources needed for experimental and theoretical advances in the coming decade.
Nuclear Pore Complexes in Genome Organization, Function and Maintenance
by Maximiliano D’AngeloThe three-dimensional organization of the DNA inside the eukaryotic cell nucleus has emerged a critical regulator of genome integrity and function. Increasing evidence indicates that nuclear pore complexes (NPCs), the large protein channels that connect the nucleus to the cytoplasm, play a critical role in the establishment and maintenance of chromatin organization and in the regulation of gene activity. These findings, which oppose the traditional view of NPCs as channels with only one: the facilitation of nucleocytoplasmic molecule exchange, have completely transformed our understanding of these structures. This book describes our current knowledge of the role of NPCs in genome organization and gene expression regulation. It starts by providing an overview of the different compartments and structures of the nucleus and how they contribute to organizing the genome, then moves to examine the direct roles of NPCs and their components in gene expression regulation in different organisms, and ends by describing the function of nuclear pores in the infection and genome integration of HIV, in DNA repair and telomere maintenance, and in the regulation of chromosome segregation and mitosis. This book provides an intellectual backdrop for anyone interested in understanding how the gatekeepers of the nucleus contribute to safeguarding the integrity and function of the eukaryotic genome.
Nuclear Power Explained (Springer Praxis Books)
by Dirk EidemüllerFrom World War II to the present day, nuclear power has remained a controversial topic in the public eye. In the wake of ongoing debates about energy and the environment, policymakers and laypeople alike are once more asking the questions posed by countless others over the decades: What actually happens in a nuclear power plant? Can we truly trust nuclear energy to be safe and reliable? Where does all that radiation and waste go? This book explains everything you would want to know about nuclear power in a compelling and accessible way. Split into three parts, it walks readers through the basics of nuclear physics and radioactivity; the history of nuclear power usage, including the most important events and disasters; the science and engineering behind nuclear power plants; the politics and policies of various nations; and finally, the long-term societal impact of such technology, from uranium mining and proliferation to final disposal. Featured along the way are dozens of behind-the-scenes, full-color images of nuclear facilities. Written in a nontechnical style with minimal equations, this book will appeal to lay readers, policymakers and professionals looking to acquire a well-rounded view about this complex subject.
Nuclear Power Is Not The Answer To Global Warming Or Anything Else
by Helen CaldicottIn this revealing examination of the costs and consequences of nuclear energy, world-renowned antinuclear spokesperson Helen Caldicott uncovers the facts that belie the nuclear industry propaganda: nuclear power contributes to global warming; the true cost of nuclear power is prohibitive, with taxpayers picking up most of the tab; there's simply not enough uranium in the world to sustain nuclear power over the long term; and the potential for a catastrophic accident or a terrorist attack far outweighs any benefits. Trained as a physician and thoroughly versed in the science of nuclear energy, the bestselling author of Nuclear Madness and Missile Envy here turns her attention from nuclear bombs to nuclear lightbulbs. As she makes meticulously clear in this essential book, the world cannot withstand either.
Nuclear Power Is Not the Answer
by Helen CaldicottThe renowned antinuclear activist delivers a &“frighteningly convincing argument&” against nuclear energy as a solution to climate change (Publishers Weekly). In a world torn apart by wars over oil, politicians have stepped up their search for alternative energy sources—and their leading choice is nuclear energy. But nuclear energy&’s popularity as a green alternative is based on misinformation. People claim that nuclear-powered electricity does not cause global warming or pollution, that it is inexpensive, and that it is safe. These claims, as Helen Caldicott demonstrates, are untrue. In Nuclear Power Is Not the Answer, Caldicott digs beneath the nuclear industry&’s propaganda to examine the actual costs and environmental consequences of nuclear energy. In fact, nuclear power does contribute to global warming; the cost is prohibitive, with taxpayers picking up most of the tab; there&’s not enough uranium in the world to sustain it over the long term; and the potential for a catastrophic accident or a terrorist attack far outweighs any benefits. In concluding chapters, Caldicott details alternative sustainable energy sources that are the key to a clean, green future.
Nuclear Power Plant Emergencies in the USA: Managing Risks, Demographics and Response
by Dean KyneManaging nuclear power emergencies is significantly different from managing other types of emergencies, including fire, flood, and other disasters because nuclear disaster management requires special technical skills and a rigid protocol which outlines detailed steps and procedure before an evacuation announcement could be made. It was evident that the impacts from a nuclear power core-meltdown accident were immerse, irreversible, and inevitable, as evident by evaluating the three historic core-meltdown accidents, namely Three Mile Island in 1997, Chernobyl in 1986, and Fukushima Daiichi in 2011. The three options for minimizing the risks associated with NPPs are suggesting elimination of all NPPs in operation in the United States, transforming inevitable risks to evitable risks, and transforming the current radiological plan into an effective emergency management plan. Being the latter option is the only viable one, this book provides a comprehensive understanding on effectively managing nuclear power emergencies in the U.S. The book presents detailed analysis on effectively managing nuclear power emergencies. In an attempt to illustrate minimizing the risks, factual answers to the key questions surrounding managing nuclear disasters are outlined. What are the risks associated with the nuclear power plants (NPP)? What are the problems associated with managing nuclear power core-meltdown accidents in the three historic accidents? Where are the geographical locations of the 99 commercial reactors in the U.S? Who are those exposed to potential risks associated with the NPPs? How could a projection of radioactive plume dispersion pathway be carried out using a spatial computer code, such as the Radiological Assessment Systems for Consequence Analysis (RASCAL) in case of a core-meltdown accident? Where would the radioactive plume go given weather conditions? Who are more likely to be exposed to the high level radiation dose during the core-meltdown accident? What are the issues with the current radiological emergency plan?
Nuclear Power Plants: The Third International Symposium on Software Reliability, Industrial Safety, Cyber Security and Physical Protection of Nuclear Power Plant (ISNPP) (Lecture Notes in Electrical Engineering #507)
by Yang Xu Feng Gao Weihua Chen Zheming Liu Pengfei Gu Hong XiaThis book is a compilation of selected papers from the 3rd International Symposium on Software Reliability, Industrial Safety, Cyber Security and Physical Protection of Nuclear Power Plants, held in Harbin, China on 15th–17th August 2018. The symposium discussed the status quo, technical advances and development direction of digital instrument control technology, software reliability, information security and physical protection in the process of nuclear power development. Offering technical insights and know from leading experts, this book is a valuable resource for both practitioners and academics working in the field of nuclear instrumentation, control systems and other safety-critical systems, as well as nuclear power plant managers, public officials, and regulatory authorities.
Nuclear Power Reactor Development: History, Technologies, and Lessons
by Yoshiaki OkaThis book offers a comprehensive exploration of the history and development of power reactors worldwide, from their inception to the present day. It provides an in-depth analysis of light water reactors and their global technology, while also delving into the evolution of gas-cooled, heavy water, liquid metal-cooled, aerospace, and nuclear fusion reactors. By examining past advancements, this book equips readers with the insights necessary to apply lessons learned to future reactor development and utilization. Key concepts include the dominance of light water reactors in the global market, the progression of nuclear fuel cycle technologies, and the economic and political aspects of plutonium utilization. The book also addresses critical questions such as the potential depletion of uranium resources and the characteristics of Generation III and IV reactors. With contributions from government agencies and international organizations, this work is a must-read for those seeking a thorough understanding of nuclear reactor history and future challenges. Intended for graduate students, university faculty, researchers, industry professionals, and anyone with a keen interest in nuclear power, this book serves as a vital resource for understanding the complexities of nuclear reactor development and the broader implications for society. The translation was done with the help of artificial intelligence. A subsequent human revision was done primarily in terms of content.