Nuclear physics Books

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Book SynopsisYou cannot hide from radioactivity. Even the book you are holding is slightly radioactive, but there are more serious risks. Radioactivity - the breakdown of unstable atomic nuclei, releasing radiation - is a fundamental process in nature. It is a process that has been harnessed to provide wide and important applications in science, medicine, industry, and energy production. But it remains much misunderstood - and feared, perhaps because nuclear radiation cannot be detected by human senses, and can undoubtedly do great harm if appropriate precautions are not taken. In recent times there have been increasing concerns about nuclear terrorism.The traces of radioactive atoms in rocks have allowed us to understand the nature and history of the Earth, in particular to date events in that history. Radioactive dating has been used for a variety of purposes, from determining the age of the first hominids to the dating of the Turin Shroud. The discovery of radioactivity has improved our survival kit, but also gave us the chance to reach a new level of awareness on the history of our species and its environmental impacts. In this Very Short Introduction, Claudio Tuniz explains the nature of radioactivity and discuss its role in nature. Describing radioactivity in the stars and in the Earth, he also looks at its wide range of applications in biomedicine and in science, as well as the mechanisms of nuclear fission and fusion, and the harnessing of nuclear power. ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area. These pocket-sized books are the perfect way to get ahead in a new subject quickly. Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.Trade Reviewan enjoyable discussion of the light and dark side of radioactivity. * Times Higher Education Supplement *Table of ContentsPROLOGUE; EPILOGUE; REFERENCES; FURTHER READING

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Book SynopsisThis book is a guide to the practical application of statistics in data analysis as typically encountered in the physical sciences. It is primarily addressed at students and professionals who need to draw quantitative conclusions from experimental data. Although most of the examples are taken from particle physics, the material is presented in a sufficiently general way as to be useful to people from most branches of the physical sciences. The first part of the book describes the basic tools of data analysis: concepts of probability and random variables, Monte Carlo techniques, statistical tests, and methods of parameter estimation. The last three chapters are somewhat more specialized than those preceding, covering interval estimation, characteristic functions, and the problem of correcting distributions for the effects of measurement errors (unfolding).Trade Review"Glen Cowan is a particle physicist who seems to have got everything right. Results are stated clearly, without mathematical proof but with enough explanation to satisfy the physicist's need to understand not only how, but also why...Those teaching an advanced undergraduate or graduate course in statistics or physicists will find this a good textbook...Do not be fooled by the fact that it does not have the "textbook look" - the exercises have been made available separately on a Web site. " CERN Courier"The material presented in this book is dense.In less than two hundred pages, it takes the reader from the basic notions of probability, through neural networks, Monte Carlo methods, and regularization techniques." Short Book ReviewsTable of ContentsPreface ; Notation ; 1. Fundamental Concepts ; 2. Examples of Probability Functions ; 3. The Monte Carlo Method ; 4. Statistical Tests ; 5. General Concepts of Parameter Estimation ; 6. The Method of Maximum Likelihood ; 7. The Method of Least Squares ; 8. The Method of Moments ; 9. Statistical Errors, Confidence Intervals and Limits ; 10. Characteristic Functions and Related Examples ; 11. Unfolding ; Bibliography ; Index

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Book SynopsisThis book gives an accessible overview of the 70-year history of nuclear fusion research and the vain attempts to construct an energy-generating nuclear fusion reactor. It shows that even in the most optimistic scenario nuclear fusion, despite the claims of its proponents and the billions being spent on research, will not be able to make a sizable contribution to the energy mix in this century. The important consequence is that nuclear fusion will not be a factor in combating climate change, since the race for carbon-free energy will have been won or lost long before the first nuclear fusion power station comes on line. Table of ContentsPreface.- What is nuclear fusion?.- Stellar processes and quantum mechanics.- Nuclear fusion of light elements.- Plasma.- Plasma in nuclear fusion devices.- Early history and declassification.- Birth of the tokamak.- The tokamak stampede and further developments.- The Big Tokamaks: TFTR, JET, JT-60.- The International Thermonuclear Experimental Reactor.- Problems, problems, problems….- Post-ITER: Demo and fusion power plants.- Spherical tokamaks.- Stellarators and other alternative approaches.- Privately funded research.- Criticism of the fusion enterprise.- Economics and sustainability.- Environment and safety.- Summary and final conclusion.

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Book SynopsisTable of Contents1. Introduction 2. The Basis of Monte Carlo 3. Pseudorandom Number Generators 4. Sampling, Scoring, and Precision 5. Variance Reduction Techniques 6. Markov Chain Monte Carlo 7. Inverse Monte Carlo 8. Linear Operator Equations 9. The Fundamentals of Neutral Particle Transport 10. Monte Carlo Simulation of Neutral Particle Transport 11. Monte Carlo Applications

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Book SynopsisThe story of the Higgs boson - the so-called ''God particle'' - and the man who thought of itIn the summer of 1964, a reclusive young professor at the University of Edinburgh wrote two scientific papers which have come to change our understanding of the most fundamental building blocks of matter and the nature of the universe. Peter Higgs posited the existence an almost infinitely tiny particle - today known as the Higgs boson - which is the key to understanding why particles have mass, and but for which atoms and molecules could not exist.For nearly 50 years afterwards, some of the largest projects in experimental physics sought to demonstrate the physical existence of the boson which Higgs had proposed. Sensationally, confirmation came in July 2012 at the Large Hadron Collider at CERN in Geneva. The following year Higgs was awarded the Nobel Prize for Physics. One of the least-known giants of science, he is the only person in history to have had a single parTrade Reviewthorough and fascinating ... Close spoke at length to Higgs and the result is a highly detailed and rich narrative ... a piece of scientific history. -- Jay Elwes * Spectator *An illuminating guide to the man and the science behind the Higgs boson ... the tale of the conception and discovery of the Higgs boson, a tiny tremor in an energy field that pervades the whole universe, is one of the most important in modern physics. Without the Higgs there would be no atoms or people or planets or stars or anything except restless particles zipping through space in splendid isolation. Close, a particle physicist who has served as head of communications and public education at Cern, is an excellent guide to the knotty science of that story, as well as what we do know about the mysterious man himself. -- Ananyo Bhattacharya * Guardian *a clear, vivid and occasionally even beautiful portrait of a scientific breakthrough: the tale of how a relatively obscure Scotland-based physicist developed a stunning theory, one that would help illuminate the invisible, particulate web that holds our universe together -- Deborah Blum * New York Times *a five star book - it reaches parts other books on the Higgs have failed to reach and Frank Close does a brilliant job -- Brian Clegg * Popular Science *A fascinating biography of an elusive particle and the equally elusive man who predicted its existence half a century before it was found. If the Higgs boson is the God particle then I feel I have glimpsed the mind of its creator. -- Jim Al-KhaliliClose tells the intertwined stories of Higgs's life and the discovery of the Higgs boson with the aid of a deep understanding of the physics involved and the benefit of many meetings with Higgs himself. There have been other books on the same theme, but this is far and away the best. Where Close excels is in explaining the fundamental principles of particle physics in language anyone likely to pick up this book will understand. ... Elusive works as a biography of Peter Higgs, as an account of one of the greatest intellectual advances in human history and, best of all, as an answer to anyone who asks why we should bother to carry out experiments like those performed at CERN. Buy it. -- John Gribbin * Literary Review *Close is among today's best writers on the history of quantum mechanics -- EconomistParticular brilliance ... This accessible account tells the story of the quest, and of the man who made it possible * BBC History Magazine *reveals the sheer complexity, detail and dazzling precision that, for the scientist, constitutes 'beauty in nature'. Close maintains a strong narrative line - we are watching and waiting throughout for the Higgs boson to be identified. -- Sue Roe * Mail on Sunday *A perfect marriage of subject and writer. With verve, insight, and rigor, Frank Close beautifully illuminates the life and times of one of physics' great, unheralded giants. Elusive is a triumph of a book, and one worthy of its subject's extraordinary contributions. -- bestselling author of The Founders * Jimmy Soni *Elusive is both a deep, exciting intellectual history and an elegantly told portrait of a quiet man whose 'one great idea' changed modern physics forever. Close marries the exotic details of contemporary particle physics theory with the very human aspects of how that theory came to be. An enlightening read from one of our very best writers and practitioners of physics. -- author of The Last Man Who Knew Everything * David N. Schwartz *Rich, compelling, and surprising. Fundamental physics can be equal parts awe-inspiring and head-spinning, and Close masterfully captures those qualities in this deeply satisfying tale of Peter Higgs's convoluted, and very human, journey through life and science. -- author of The Ascent of Information * Caleb Scharf *beautifully, engagingly written ... I was reassured by the characteristic wisdom and honesty of Close's judgement that, while the discovery of the Higgs particle completes the Standard Model of the atom, "Internal completeness is a mathematical requirement, whereas describing the world around us is the demand of natural philosophy". That sentence alone makes Elusive my book of the year. -- Raymond Tallis * Times Literary Supplement Books of the Year *Frank Close is probably the perfect person to tell the tale of Higgs and his boson. A serious physicist himself, he is also an exceptional author - and, unlike with most authors, his subject actually occasionally speaks to him. -- Tom Whipple * Times Books of the Year *the first full biography of Higgs ... focuses just as much on Higgs the particle as he does on Higgs the scientist, and the physics concepts he explores can be daunting. But this excellent book is well worth the effort. -- Mike Perricone * Symmetry Books of the Year *A compelling account of the long search for the Higgs boson -- Books of the Year * Economist *Because there would be no atoms or molecules without the intervention of the Higgs field, our very existence is a consequence of its reality ... a compulsive read. Besides explaining the physics and exploring the many personalities involved, it also conveys the excitement of physics research, the missed opportunities, the happy coincidences, the false trails, the social networks, the collaborations and professional rivalries. Like an established scientific fact that will stand for all time, this book is a definitive account of an historic scientific achievement. -- Rick Marshall * Physics Education *

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Book SynopsisThe book is a quantitative treatment of the theory and natural variations of light stable isotopes, and includes more than 100 original applications. Isotope distribution is rigorously discussed in the context of fractionation processes, thermodynamics, mass conservation, exchange kinetics and diffusion theory. The theoretical principles are illustrated with natural examples, emphasizing oygen and hydrogen isotope variations in natural waters, terrestrial and extraterrestrial rocks, and hydrothermal systems. New data on meteoric precipitation, rivers, and hydrothermal systems are included.Trade Review"Reacting to what he sees as an unfortunate migration of funding from fundamental scientific research to applications deemed politically important, Criss seeks to reconnect the diverse observations of isotope distributions to the quantitative theories of physical chemistry emphasized by earlier scientists. Instead of case histories, which he cites only when they exemplify quantitative principles or convey new and important possibilities, he offers translations of the principles of statistical and classical thermodynamics, kinetics, and diffusion theory into the language of isotope distribution, the fundamental variable of which is the isotope ration."--SciTech Book News "Reacting to what he sees as an unfortunate migration of funding from fundamental scientific research to applications deemed politically important, Criss seeks to reconnect the diverse observations of isotope distributions to the quantitative theories of physical chemistry emphasized by earlier scientists. Instead of case histories, which he cites only when they exemplify quantitative principles or convey new and important possibilities, he offers translations of the principles of statistical and classical thermodynamics, kinetics, and diffusion theory into the language of isotope distribution, the fundamental variable of which is the isotope ration."--SciTech Book NewsTable of Contents1: Abundance and Measurement of Stable Isotopes 1.1: Discovery of Isotopes 1.2: Nuclide Types, Abundances, and Atomic Weights 1.3: Properties and Fractionation of Isotopic Molecules 1.4: Material Balance Relationships 1.5: Mass Spectrometers 1.6: Notation and Standards 1.7: Summary 1.8: Problems References 2: Isotopic Exchange and Equilibrium Fractionation 2.1: Isotopic Exchange Reactions 2.2: Basic Equations 2.3: Molecular Models 2.4: Theory of Isotopic Fractionation 2.5: Temperature Dependence of Isotopic Fractionation Factors 2.6: Rule of the Mean 2.7: Isotopic Thermometers 2.8: Summary 2.9: Problems References 3: Isotope Hydrology 3.1: Variations of D and ¹]8O in the Hydrosphere 3.2: Variations of D and ¹]8O in Waters from Deep Geologic Environments 3.3: Liquid-Vapor and Ice-Vapor Equilibria 3.4: Rayleigh Fractionation 3.5: Examples of Natural Meteoric Precipitation 3.6: Isotopic Variations in Streamflow 3.7: Isotopic Variations in Groundwaters 3.8: Summary 3.9: Problems References 4: Nonequilibrium Fractionation and Isotopic Transport 4.1: Kinetics of Isotopic Exchange 4.2: Examples of Isotopic Exchange Kinetics 4.3: Evaporation 4.4: Lake Balance 4.5: Isotopic Flux and Soil Evaporation 4.6: Kinetic Fractionation Factors 4.7: Isotopic Distribution in the Atmosphere 4.8: Mass-Independent Fractionation 4.9: Summary 4.10: Problems References 5: Igneous Rocks, Meteorites, and Fluid-Rock Interactions 5.1: Oxygen and Hydrogen Isotope Geochemistry of Rocks 5.2: Igneous Rocks: Primary Crystallization 5.3: Igneous Rocks: Subsolidus Processes 5.4: Hydrothermal Systems 5.5: Extraterrestrial Oxygen and Hydrogen Isotopic Compositions 5.6: Summary 5.7: Problems References Appendices A.1 Important Nuclides of Light Elements A.2 Selected Physical Constants A.3 Definitions, Formulas, and Approximations A.4 Selected Oxygen Isotope Fractionation Factors between Various Phases and Water Index

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Book SynopsisThis book is a guide to the practical application of statistics in data analysis as typically encountered in the physical sciences. It is primarily addressed at students and professionals who need to draw quantitative conclusions from experimental data. Although most of the examples are taken from particle physics, the material is presented in a sufficiently general way as to be useful to people from most branches of the physical sciences. The first part of the book describes the basic tools of data analysis: concepts of probability and random variables, Monte Carlo techniques, statistical tests, and methods of parameter estimation. The last three chapters are somewhat more specialized than those preceding, covering interval estimation, characteristic functions, and the problem of correcting distributions for the effects of measurement errors (unfolding).Trade Review"Glen Cowan is a particle physicist who seems to have got everything right. Results are stated clearly, without mathematical proof but with enough explanation to satisfy the physicist's need to understand not only how, but also why...Those teaching an advanced undergraduate or graduate course in statistics or physicists will find this a good textbook...Do not be fooled by the fact that it does not have the "textbook look" - the exercises have been made available separately on a Web site. " CERN CourierTable of ContentsPreface ; Notation ; 1. Fundamental Concepts ; 2. Examples of Probability Functions ; 3. The Monte Carlo Method ; 4. Statistical Tests ; 5. General Concepts of Parameter Estimation ; 6. The Method of Maximum Likelihood ; 7. The Method of Least Squares ; 8. The Method of Moments ; 9. Statistical Errors, Confidence Intervals and Limits ; 10. Characteristic Functions and Related Examples ; 11. Unfolding ; Bibliography ; Index

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Book SynopsisThe quantum interference of de Broglie matter waves is probably one of the most startling and fundamental aspects of quantum mechanics. It continues to tax our imaginations and leads us to new experimental windows on nature. Quantum interference phenomena are vividly displayed in the wide assembly of neutron interferometry experiments, which have been carried out since the first demonstration of a perfect silicon crystal interferometer in 1974. Since the neutron experiences all four fundamental forces of nature (strong, weak, electromagnetic, and gravitational), interferometry with neutrons provides a fertile testing ground for theory and precision measurements. Many Gedanken experiments of quantum mechanics have become real due to neutron interferometry.Quantum mechanics is a part of physics where experiment and theory are inseparably intertwined. This general theme permeates the second edition of this book. It discusses more than 40 neutron interferometry experiments along with theirTable of Contents1: Introduction 2: Neutron interferometers and apparatus 3: Neutron interactions and the coherent scattering lengths 4: Coherence and decoherence 5: Spinor symmetry and spin superposition 6: Topological and geometric phases 7: Contexuality and Kochen-Specker phenomena 8: Gravitational, inertial and motional effects 9: Solid state physics applications 10: Forthcoming, proposed and more speculative experiments 11: Perfect crystal neutron optics 12: Interpretational questions and conclusions

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Book SynopsisThis book provides insight with non-technical explanations of how nuclear reactor technology holds the promise of making significant contributions to the struggle against global warming, and why dozens of nations are engaged in innovation and expansion of nuclear technology.

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Book SynopsisThis book provides insight with non-technical explanations of how nuclear reactor technology holds the promise of making significant contributions to the struggle against global warming, and why dozens of nations are engaged in innovation and expansion of nuclear technology.

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Book SynopsisThe first full history of US nuclear secrecy, from its origins in the late 1930s to our post–Cold War present.Trade Review"This book tackles a big and important subject--nuclear secrecy--and illuminates its history with a wealth of new detail. Wellerstein provides a long, sweeping overview of secrecy in the nuclear age, tracking its evolution from the pre-World War II discovery of fission to the present. He surveys a vital topic through the mastery of difficult archival sources and assembles a coherent, compelling narrative."--Peter Westwick, author of Stealth: The Secret Contest to Invent Invisible AircraftTable of ContentsIntroduction: The terrible inhibition of the atom Part I. The Birth of Nuclear Secrecy 1—The road to secrecy: Chain reactions, 1939–1942 2—The “best-kept secret of the war”: The Manhattan Project, 1942–1945 3—Preparing for “Publicity Day”: A wartime secret revealed, 1944–1945 Part II. The Cold War Nuclear Secrecy Regime 4—The struggle for postwar control, 1944–1947 5—“Information control” and the Atomic Energy Commission, 1947–1950 6—Peaceful atoms, dangerous scientists: The paradoxes of Cold War secrecy, 1950–1969 Part III. Challenges to Nuclear Secrecy 7—Unrestricted data: New challenges to the Cold War secrecy regime, 1964–1978 8—Secret seeking: Anti-secrecy at the end of the Cold War, 1978–1991 9—Nuclear secrecy and openness after the Cold War Conclusion: The past and future of nuclear secrecy Acknowledgments Notes Bibliography Archival sources and abbreviations Articles Books and monographs Index

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Book SynopsisBrings to life science's efforts to detect cosmic gravitational waves. This title offers readers an unprecedented view of gravitational wave research and explains what it means for an analyst to do work of this kind.Trade Review"Harry Collins is a distinguished sociologist, and in Gravity's Shadow he demonstrates why it is important to go beyond superficial characterizations of science to study how groups of scientists actually work.... This is a book that everyone who cares about the future of science should read." (American Scientist) "Harry Collins has presented us with an enthralling investigation into the way in which big science advances.... A perfect case study in the sociology of science." (Times Higher Education)"

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Book SynopsisHarold C. Urey (1893-1981) was one of the most famous American scientists of the twentieth century. Awarded the Nobel Prize in 1934 for his discovery of deuterium and heavy water, Urey later participated in the Manhattan Project and NASA's lunar exploration program. In this, the first ever biography of the chemist, Matthew Shindell shines new light on Urey's achievements and efforts to shape his public and private lives. Shindell follows Urey through his orthodox religious upbringing, the scientific work that won him the Nobel, and his subsequent efforts to use his fame to intervene in political, social, and scientific matters. At times, Urey succeeded, including when he helped create the fields of isotope geochemistry and cosmochemistry. But other endeavors, such as his promotion of world governance of atomic weapons, failed. By exploring those efforts, as well as Urey's evolution from farm boy to scientific celebrity, we can discern broader changes in the social and intellectual l

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Book SynopsisTrade Review"The questions he poses about the relationship between technical change and political power are pressing ones that can no longer be ignored, and identifying them is perhaps the most a nascent 'philosophy of technology' can expect to achieve at the present time."--New York Times Book Review "[Winner's] thoughtful, stylishly expressed essays . . . . are designed to wake people up to the semantic games policy-makers play; to goad people into thinking responsibly and contributing to decision making. In this he succeeds very well."--Kirkus Reviews "With educated wit, home-grown insight, and even a bit of gallows humor, Winner strives to awaken us from our technological sleepwalking."--David F. Noble, author of America by Design "The Whale and the Reactor is the philosopher's equivalent of superb public history. In its pages an analytically trained mind confronts some of the most pressing political issues of our day."--Isis

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Book SynopsisNuclear astrophysics is, in essence, a science that attempts to understand and explain the physical universe beyond the Earth by studying its smallest particles. This text serves as a basic introduction to these endeavors. It provides students and scientists a survey of the accomplishments, goals, and methods of nuclear astrophysics.Trade Review"An excellent and very readable introduction to the full range of ideas, observations/data, and experimental methods of nuclear astrophysics.... The authors are to be congratulated for capturing both the excitement and the exacting, quantitative essence of nuclear astrophysics." - Peter D. Parker, American Scientist "One could not wish for a better account of the current state of knowledge (and uncertainty) about nuclear reactions in stars." - B. E. J. Pagel, Nature "Written in an informal style that those uninitiated into the jargon of nuclear astrophysics and astronomy will find readable and illuminating.... A useful and long-awaited introduction to nuclear astrophysics." - G. J. Mathews, Science"

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Book SynopsisTrade Review"David Oualaalou, a geopolitical analyst, writer, speaker, teacher, military veteran, Middle East specialist and linguist with unique first-hand experiences and knowledge gained from personal field intelligence in Middle East wars—combined with his fresh and unique writing style—has produced a challenging perspective and a thought-provoking book. David's unembellished bold critiques, with credible analytical interpretation of geopolitical implications and national security challenges, for not only the USA but for the Iran, Saudi Arabia, Russia, China and others in the new Middle East region (and world), will be much discussed in this impressive approach to eye-opening questions with credible rival answers. I believe this book is crucial reading for any person interested in the future nuclear Middle East."—William A. Mitchell, author of Baylor in Northern Iraq during Operation Iraqi Freedom"Once again Dr. Oualaalou has brought to life a complex current topic.His balanced and in-depth investigation of the topic allows the reader to not only learn the history of the parties involved, but also to follow the historic threads that have led to today's geopolitical situation. Dr. Oualaalou has the experience and expertise to give a clear picture of the region's issues today and projection of possible scenarios in the future."—Mortada Mohamed, President, World Affairs Council of AustinTable of ContentsAcknowledgmentsPreface1. Introduction2. History of the Persian Empire3. Emergence of Modern-Day Iran4. Political Landscape of the Middle East5. Nuclear Arms Race in the Middle East6. The Future of the Middle East and Its Geopolitical Outcome7. Author's Reflections

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Book SynopsisTrade Review"David Oualaalou, a geopolitical analyst, writer, speaker, teacher, military veteran, Middle East specialist and linguist with unique first-hand experiences and knowledge gained from personal field intelligence in Middle East wars—combined with his fresh and unique writing style—has produced a challenging perspective and a thought-provoking book. David's unembellished bold critiques, with credible analytical interpretation of geopolitical implications and national security challenges, for not only the USA but for the Iran, Saudi Arabia, Russia, China and others in the new Middle East region (and world), will be much discussed in this impressive approach to eye-opening questions with credible rival answers. I believe this book is crucial reading for any person interested in the future nuclear Middle East."—William A. Mitchell, author of Baylor in Northern Iraq during Operation Iraqi Freedom"Once again Dr. Oualaalou has brought to life a complex current topic.His balanced and in-depth investigation of the topic allows the reader to not only learn the history of the parties involved, but also to follow the historic threads that have led to today's geopolitical situation. Dr. Oualaalou has the experience and expertise to give a clear picture of the region's issues today and projection of possible scenarios in the future."—Mortada Mohamed, President, World Affairs Council of AustinTable of ContentsAcknowledgmentsPreface1. Introduction2. History of the Persian Empire3. Emergence of Modern-Day Iran4. Political Landscape of the Middle East5. Nuclear Arms Race in the Middle East6. The Future of the Middle East and Its Geopolitical Outcome7. Author's Reflections

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Book SynopsisFundamentals of Crystalline State and Crystal Lattice.- Finite Symmetry Elements and Crystallographic Point Groups.- Infinite Symmetry Elements and Crystallographic Space Groups.- Formalization of Symmetry.- Nonconventional Symmetry.- Properties, Sources, and Detection of Radiation.- Fundamentals of Diffraction.- The Powder Diffraction Pattern.- Structure Factor.- Solving the Crystal Structure.- Powder Diffractometry.- Collecting Quality Powder Diffraction Data.- Preliminary Data Processing and Phase Analysis.- Determination and Refinement of the Unit Cell.- Solving Crystal Structure from Powder Diffraction Data.- Crystal Structure of LaNi4.85Sn0.15.- Crystal Structure of CeRhGe3.- Crystal Structure of Nd5Si4.- Empirical Methods of Solving Crystal Structures.- Crystal Structure of NiMnO2(OH).- Crystal Structure of ,i.tma V3O71.- Crystal Structure of ma2Mo7O221.- Crystal Structure of Mn7(OH)3(VO4)41.- Crystal Structure of FePO4.- Crystal Structure of Acetaminophen, C8H9NO2.Trade ReviewFrom a review of the first edition: “The book is well written and organized. The authors’ enthusiasm and dedication to the subject matter are clearly evident. I find the book to be not only an excellent introduction to structural characterization, but also a valuable introduction to the world of the working crystallographer. The text is rich in references to internet resources, software, literature, organizations, databases, and institutions that x-ray researchers employ routinely. As a class text the book could be used in an introductory course for third or fourth year undergraduates in materials science, chemistry, physics, or geochemistry. The detailed structural treatments may be too much for the typical introductory x-ray diffraction course, but students would be adding a valuable text for future reference to their libraries. The sections are also ideal for more advanced coursework at the graduate level. Beyond the classroom, any researcher desiring structural information on materials would benefit from this book.” - Materials Today, July/August 2004 Amazon.com readers: http://www.amazon.com/Fundamentals-Diffraction-Structural-Characterization-Materials/dp/0387241477/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1229536007&sr=8-1Table of ContentsFundamentals of Crystalline State and Crystal Lattice.- Finite Symmetry Elements and Crystallographic Point Groups.- Infinite Symmetry Elements and Crystallographic Space Groups.- Formalization of Symmetry.- Nonconventional Symmetry.- Properties, Sources, and Detection of Radiation.- Fundamentals of Diffraction.- The Powder Diffraction Pattern.- Structure Factor.- Solving the Crystal Structure.- Powder Diffractometry.- Collecting Quality Powder Diffraction Data.- Preliminary Data Processing and Phase Analysis.- Determination and Refinement of the Unit Cell.- Solving Crystal Structure from Powder Diffraction Data.- Crystal Structure of LaNi4.85Sn0.15.- Crystal Structure of CeRhGe3.- Crystal Structure of Nd5Si4.- Empirical Methods of Solving Crystal Structures.- Crystal Structure of NiMnO2(OH).- Crystal Structure of ,i.tma V3O71.- Crystal Structure of ma2Mo7O221.- Crystal Structure of Mn7(OH)3(VO4)41.- Crystal Structure of FePO4.- Crystal Structure of Acetaminophen, C8H9NO2.

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Book SynopsisThis book demonstrates how NMR relaxation can be applied for structural diagnostics of chemical compounds, recognition of weak intermolecular interactions, determinations of internuclear distances and lengths of chemical bonds when compounds under investigation can exist only in solutions. Written as a textbook for chemists, demanding little background in physics and NMR Its practical approach helps the reader to apply the techniques in the lab First book to teach NMR Relaxation techniques to chemists Trade Review"…appropriate for use in an advanced undergraduate or graduate level course on this topic...an excellent starting point for an investigator who would like to begin using relaxation-based NMR experiments." (Journal of Natural Products, January 2006) "Bakhmutov's book gives a relatively low-level introduction to relation measurements and their uses in describing dynamical processes…" (Journal of the American Chemical Society, May 25, 2005)Table of ContentsPreface. Chapter 1. How and why nuclei relax. 1.1. Nucleus in the magnetic field. 1.2. Spin-lattice and spin-spin nuclear relaxation. 1.2.1. Macroscopic magnetization: relaxation times T1 and T2. 1.3. Molecular motions as reason of nuclear relaxation. 1.3.1. Correlation times and activation energies of Molecular Motions. 1.3.2. Isotropic and anisotropic molecular motions. 1.4. Bibliography for Chapter 1. Chapter 2. How to measure the NMR relaxation times. 2.1. Exponential and non-exponential nuclear relaxation. 2.2. Measurements of spin-lattice relaxation times. 2.3. Measurements of selective and bi-selective T1 times. 2.4. Determinations of T1( and T2 times. 2.5. Preparation of samples for relaxation experiments. 2.6. Bibliography to Chapter 2. Chapter 3. Errors in Determinations of Relaxation Times. 3.1. Instrumental errors. 3.2. Incorrect parameters for T1, T2 measurements and T1, T2 calculations. 3.3 Coupled nuclear relaxation. 3.4. Chemical exchanges. 3.5. Bibliography to Chapter 3. Chapter 4. NMR relaxation by dipole-dipole and quadrupole interactions. 4.1. The intramolecular dipole-dipole relaxation: homo- and hetero-nuclear dipolar coupling and the spectral density function. 4.2. Haw to reveal the presence of the dipolar mechanisms. 4.2.1. NOE as a test for dipole-dipole nuclear relaxation. 4.2.2. Evaluations of the dipolar contributions from selective and non-selective T1 times. 4.3. Intermolecular dipole-dipole interactions. 4.4. Electric field gradients at quadrupolar nuclei. 4.5. Nuclear quadrupole coupling constant as a measure of the electric field gradient. 4.6. Quadrupole relaxation. 4.7. Bibliography to Chapter 4. Chapter 5. Relaxation by chemical shift anisotropy, spin-rotation relaxation, scalar relaxation of the second kind and cross-mechanisms. 5.1. Relaxation by chemical shift anisotropy. 5.2. Spin-rotation relaxation. 5.3. Interference mechanisms of nuclear relaxation. 5.4. The scalar relaxation of the second kind. 5.5 Bibliography to Chapter 5. Chapter 6. Nuclear relaxation in molecular systems with anisotropic motions. 6.1. Spin-lattice nuclear relaxation in ellipsoid molecules: Temperature dependences of T1times. 6.2. How to reveal anisotropic molecular motions in solutions. 6.3. Nuclear relaxation in the presence of correlation time distributions. 6.4. Bibliography to Chapter 6. Chapter 7. 1H T1 relaxation diagnostics in solutions. 7.1. Revealing weak intermolecular interactions by T1 time measurements in solutions. 7.2. T1 studies of exchanges in simple molecular systems. 7.3. Structural 1H T1 criterion. 7.4. Partially-relaxed NMR spectra. 7.5. Bibliography to Chapter 7. Chapter 8. Internuclear distances from the 1H T1 relaxation measurements in solutions. 8.1. X...H distances: metal - hydride bond lengths. 8.1.1. How to determine metal-hydride bond lengths by standard 1H T1 measurements. 8.1.2. Metal-hydride bond lengths by 1H T1sel and 1H T1min times measurements. 8.2. Proton-proton distances by standard T1 measurements. 8.3. H-H distances from T1sel / T1bis measurements. 8.4. H-H distances in intermediates. 8.5. Analyzing the errors in 1H T1 determinations of internuclear distances. 8.6. Bibliography to Chapter 8. 9. Chapter 9: Deuterium quadrupole coupling constants from 2H T1 relaxation measurements in solutions. 9.1. How to determine DQCC values. 9.2. DQCC values from the 2H T1 times measurements in solutions (fast motional regime). 9.3. DQCC values via 2H T1min measurements in solutions. 9.4. Errors in DQCC determinations. 9. 5. Bibliography to Chapter 9. Chapter 10. Spin-lattice 1H and 2H relaxation in mobile groups. 10.1. 1H T1 times and H-H distances in the presence of fast vibrations and librations. 10.2. 1H T1 times and H-H distances in the presence of fast rotational diffusion. 10.3. The spectral density function for high-amplitude librations. 10.4. 900-jumps in four-fold potential. 10. 5. Deuterium spin-lattice NMR relaxation in mobile molecular fragments. 10.6. Bibliography to Chapter 10. Chapter 11. Relaxation of other nuclei (than 1H and 2H) and specific relaxation experiments. 11.1. Chemical shift anisotropies and nuclear quadrupole coupling constants from T1 times of heavy nuclei in solutions. 11.2. Multinuclear relaxation approaches to complexation, association and H-bonding. 11.3. Na relaxation in solutions of complex molecular systems. 11. 4. Character of molecular motions from 17O and 2H T1 relaxation in solutions. 11.5. 2D T1 and T1( NMR experiments. 11.6. Chemical exchanges in complex molecular systems from 15N nuclear relaxation in solutions. 11.7. R1/R2 method. 11.8. Cross-correlation relaxation rates and structure of complex molecular systems in solutions. 11.9. Variable - field relaxation experiments. 11.10. Bibliography to Chapter 11. Chapter 12. Paramagnetic NMR relaxation. 12.1. Theoretical basics of the paramagnetic relaxation enhancement. 12.2. Paramagnetic relaxation rate enhancements in the presence of chemical exchanges. 12.3. Structural applications of paramagnetic relaxation rate enhancements. 12.4. Kinetics of ligand exchanges via paramagnetic relaxation rate enhancements. 12.5. Longitudinal electron relaxation time in paramagnetic centers from variable-high field NMR experiments. 12.6. Bibliography to Chapter 12. Concluding remarks. Subject Index.

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Book SynopsisThis book demonstrates how NMR relaxation can be applied for structural diagnostics of chemical compounds, recognition of weak intermolecular interactions, determinations of internuclear distances and lengths of chemical bonds when compounds under investigation can exist only in solutions.Trade Review"…appropriate for use in an advanced undergraduate or graduate level course on this topic...an excellent starting point for an investigator who would like to begin using relaxation-based NMR experiments." (Journal of Natural Products, January 2006) "…should be very useful to students and to researchers who use NMR." (CHOICE, September 2005)Table of ContentsPreface. 1. How and Why Nuclei Relax. 1.1. Nucleus in the magnetic field. 1.2. Spin-lattice and spin-spin nuclear relaxation. 1.2.1. Macroscopic magnetization: relaxation times T1 and T2. 1.3. Molecular motions as reason of nuclear relaxation. 1.3.1. Correlation times and activation energies of Molecular Motions. 1.3.2. Isotropic and anisotropic molecular motions. 1.4. Bibliography for Chapter 1. 2. How to Measure the NMR Relaxation Times. 2.1. Exponential and non-exponential nuclear relaxation. 2.2. Measurements of spin-lattice relaxation times. 2.3. Measurements of selective and bi-selective T1 times. 2.4. Determinations of T1( and T2 times. 2.5. Preparation of samples for relaxation experiments. 2.6. Bibliography to Chapter 2. 3. Errors in Determinations of Relaxation Times. 3.1. Instrumental errors. 3.2. Incorrect parameters for T1, T2 measurements and T1, T2 calculations. 3.3 Coupled nuclear relaxation. 3.4. Chemical exchanges. 3.5. Bibliography to Chapter 3. 4. NMR Relaxation by Dipole-Dipole and Quadrupole Interactions. 4.1. The intramolecular dipole-dipole relaxation: homo- and hetero-nuclear dipolar coupling and the spectral density function. 4.2. Haw to reveal the presence of the dipolar mechanisms. 4.2.1. NOE as a test for dipole-dipole nuclear relaxation. 4.2.2. Evaluations of the dipolar contributions from selective and non-selective T1 times. 4.3. Intermolecular dipole-dipole interactions. 4.4. Electric field gradients at quadrupolar nuclei. 4.5. Nuclear quadrupole coupling constant as a measure of the electric field gradient. 4.6. Quadrupole relaxation. 4.7. Bibliography to Chapter 4. 5. Relaxation by Chemical Shift Anisotropy, Spin-Rotation Relaxation, Scalar Relaxation of the Second Kind and Cross-Mechanisms. 5.1. Relaxation by chemical shift anisotropy. 5.2. Spin-rotation relaxation. 5.3. Interference mechanisms of nuclear relaxation. 5.4. The scalar relaxation of the second kind. 5.5 Bibliography to Chapter 5. 6. Nuclear Relaxation in Molecular Systems with Anisotropic Motions. 6.1. Spin-lattice nuclear relaxation in ellipsoid molecules: Temperature dependences of T1times. 6.2. How to reveal anisotropic molecular motions in solutions. 6.3. Nuclear relaxation in the presence of correlation time distributions. 6.4. Bibliography to Chapter 6. 7. 1H T1 Relaxation Diagnostics in Solutions. 7.1. Revealing weak intermolecular interactions by T1 time measurements in solutions. 7.2. T1 studies of exchanges in simple molecular systems. 7.3. Structural 1H T1 criterion. 7.4. Partially-relaxed NMR spectra. 7.5. Bibliography to Chapter 7. 8. Internuclear Distances from the 1H T1 Relaxation Measurements in Solutions. 8.1. X...H distances: metal - hydride bond lengths. 8.1.1. How to determine metal-hydride bond lengths by standard 1H T1 measurements. 8.1.2. Metal-hydride bond lengths by 1H T1sel and 1H T1min times measurements. 8.2. Proton-proton distances by standard T1 measurements. 8.3. H-H distances from T1sel / T1bis measurements. 8.4. H-H distances in intermediates. 8.5. Analyzing the errors in 1H T1 determinations of internuclear distances. 8.6. Bibliography to Chapter 8. 9. Deuterium Quadrupole Coupling Constants from 2H T1 Relaxation Measurements in Solutions. 9.1. How to determine DQCC values. 9.2. DQCC values from the 2H T1 times measurements in solutions (fast motional regime). 9.3. DQCC values via 2H T1min measurements in solutions. 9.4. Errors in DQCC determinations. 9. 5. Bibliography to Chapter 9. 10. Spin-Lattice 1H and 2H Relaxation in Mobile Groups. 10.1. 1H T1 times and H-H distances in the presence of fast vibrations and librations. 10.2. 1H T1 times and H-H distances in the presence of fast rotational diffusion. 10.3. The spectral density function for high-amplitude librations. 10.4. 900-jumps in four-fold potential. 10. 5. Deuterium spin-lattice NMR relaxation in mobile molecular fragments. 10.6. Bibliography to Chapter 10. 11. Relaxation of Nuclei Other Than 1H and 2H) and Specific Relaxation Experiments. 11.1. Chemical shift anisotropies and nuclear quadrupole coupling constants from T1 times of heavy nuclei in solutions. 11.2. Multinuclear relaxation approaches to complexation, association and H-bonding. 11.3. Na relaxation in solutions of complex molecular systems. 11. 4. Character of molecular motions from 17O and 2H T1 relaxation in solutions. 11.5. 2D T1 and T1( NMR experiments. 11.6. Chemical exchanges in complex molecular systems from 15N nuclear relaxation in solutions. 11.7. R1/R2 method. 11.8. Cross-correlation relaxation rates and structure of complex molecular systems in solutions. 11.9. Variable - field relaxation experiments. 11.10. Bibliography to Chapter 11. 12. Paramagnetic NMR Relaxation. 12.1. Theoretical basics of the paramagnetic relaxation enhancement. 12.2. Paramagnetic relaxation rate enhancements in the presence of chemical exchanges. 12.3. Structural applications of paramagnetic relaxation rate enhancements. 12.4. Kinetics of ligand exchanges via paramagnetic relaxation rate enhancements. 12.5. Longitudinal electron relaxation time in paramagnetic centers from variable-high field NMR experiments. Bibliography. Concluding Remarks. Index.

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Book SynopsisThis comprehensive text provides an introduction to basic nuclear physics, including nuclear decays and reactions and nuclear structure, while covering the essential areas of basic research and practical applications. Its emphasis on phenomonology and the results of real experiments distinguish this from all other texts available.Table of ContentsBASIC NUCLEAR STRUCTURE. Basic Concepts. Elements of Quantum Mechanics. Nuclear Properties. The Force Between Nucleons. Nuclear Models. NUCLEAR DECAY AND RADIOACTIVITY. Radioactive Decay. Detecting Nuclear Radiations. Alpha Decay. Beta Decay. Gamma Decay. NUCLEAR REACTIONS. Nuclear Reactions. Neutron Physics. Nuclear Fission. Nuclear Fusion. Accelerators. EXTENSION AND APPLICATIONS. Nuclear Spins and Moments. Meson Physics. Particle Physics. Nuclear Astrophysics. Applications of Nuclear Physics.

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Book SynopsisThe investigation of the properties of condensed matter using experimental nuclear methods is becoming increasingly important. An extremely broad range of techniques is used, including the use of particles, such as positrons and neutrons, ion beams, and the detection of radiation from nuclear decays or nuclear reactions. Nuclear Condensed Matter Physics: Nuclear Methods and Applications is the only book to provide a comprehensive coverage of the nuclear methods used to study the properties of condensed matter. It covers all the key techniques, including the Mossbauer effect, perturbed angular correlation, muon spin rotation, neutron scattering, positron annihilation, nuclear magnetic resonance and ion beam analysis. Numerous examples are given throughout the text to illustrate how each of the experimental methods is used in modern condensed matter physics, and practical details concerning instrumentation are included to help the reader apply each method. Nuclear Condensed Matter PhysicTable of ContentsElectromagnetic Properties and Nuclear Decay. Hyperfine Interactions. Mossbauer Effect. Perturbed gamma - gamma Angular Correlation (PAC). Nuclear Magnetic Resonance (NMR). Nuclear Orientation (NO). Muon Spin Rotation (?SR). Positron Annihilation. Neutron Scattering. Ion Beam Analysis. Appendix. Bibliography of Advanced Topics. References. Index.

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Book SynopsisI.T. Platzner Atomic Energy Commission, Israel Including contributions from instrument manufacturers! Geological aging, chemical reaction mechanism studies, determination of atomic weights and investigation of metabolic pathways-these are all examples of the truly diverse nature of isotope ratio mass spectrometry (IRMS).Trade Review"Chapter 9 alone merits anyone involved in isotope measurement, from the dedicated researcher to undergraduates, buying, borrowing, and using any method possible to get a copy of this invaluable comprehensive review" (Chromatographia, July 2001)Table of ContentsPartial table of contents: INSTRUMENTATION. Historical Isotope Ratio Mass Spectrometers. Second Generation Isotope Ratio Mass Spectrometers. Advanced Isotope Ratio Mass Spectrometry III: Quadrupole Isotope Ratio Mass Spectrometry. PROCESSES AND APPLICATIONS. Ion Formation Processes. Isotope Ratio Measurement Procedures. Calculations. Appendices. Indexes.

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Book SynopsisLise Meitner (1878-1968) was a pioneer of nuclear physics and co-discoverer, with Otto Hahn and Fritz Strassmann, of nuclear fission. This book tells the story of this brilliant woman whose extraordinary life illustrates not only the dramatic scientific progress but also the injustice and destruction that have marked the twentieth century.Trade Review"Sime has produced a magnificent biography that should help rescue Meitner from oblivion. . . . The story, especially in the lead-up to the discovery of fission by Hahn, Meitner, and Strassman, is absolutely gripping, full of twists and false dawns." * New Scientist *"The characters include the whole pantheon of European physicists. The several story lines of Meitner's life are carefully and smoothly interwoven, and once the war starts, the plot becomes breathtaking. . . . Meitner's story is moving, and the book is clearly a labor of love. Such labors are worth attending." * New York Times *"Sime has produced a thorough and intelligent treatment of an extraordinary scientist who received little of the credit she is due." * Library Journal *"An extraordinary and rewarding read. Sime has written the definitive biography of Lise Meitner and much more." * Physics and Society *"Sime provides an insider's account of the discovery of fission and the treatment of Jewish intellectuals and scientists during the rise of Nazi Germany. Her insights into the distortion of reality and memory help to explain why this extremely talented and significant contributor to atomic physics has been neglected." * CHOICE *"The story told by Sime is a powerful one. She not only explains how scientists went about their work in Germany during the first half of the twentieth century but how they came to grips with the tragedies of those years." * American Historical Review *"Sime is to be applauded for bringing to life the story of a brilliant physicist whose contributions to science and personal integrity were unparalleled." * San Francisco Chronicle *"Sime has infused the writing with a passion that is both refreshing and exhilarating. This is a book that deserves to be widely read and deliberated. Its significance exceeds the boundaries of the history of nuclear physics and chemistry." * Bulletin of the Atomic Sciences *"A moving, artfully detailed biography that should reestablish Lise Meitner among the greats. Sime maintains that elusive balance between scientific exposition, personal insight and political and cultural analysis that good scientific biographers strive for but seldom attain." * The Sciences *"Sime has written the definitive scientific biography of Meiter, a riveting and masterful account of a scientist's steadfast devotion to physics. Sime blends the science and history with seamless ease. Sime's extensive research offers fresh insights into the devastating legacy of Nazism's distortion of the scientific truth." * Washington Post *"Sime has constructed here an admirable restorative of scientific credit." * Booklist *

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Book SynopsisThis title is part of UC Press's Voices Revived program, which commemorates University of California Pressâs mission to seek out and cultivate the brightest minds and give them voice, reach, and impact. Drawing on a backlist dating to 1893, Voices Revived makes high-quality, peer-reviewed scholarship accessible once again using print-on-demand technology. This title was originally published in 1975.

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Book SynopsisUsing examples from across the sub-disciplines of physics, this introduction shows why effective field theories are the language in which physical laws are written. The tools of effective field theory are demonstrated using worked examples from areas including particle, nuclear, atomic, condensed matter and gravitational physics. To bring the subject within reach of scientists with a wide variety of backgrounds and interests, there are clear physical explanations, rigorous derivations, and extensive appendices on background material, such as quantum field theory. Starting from undergraduate-level quantum mechanics, the book gets to state-of-the-art calculations using both relativistic and nonrelativistic few-body and many-body examples, and numerous end-of-chapter problems derive classic results not covered in the main text. Graduate students and researchers in particle physics, condensed matter physics, nuclear physics, string theory, and mathematical physics more generally, will find this book ideal for both self-study and for organized courses on effective field theory.Trade Review'This book can serve as a reference work for graduate students of theoretical physics as well as a professional reference … Recommended.' M. O. Farooq, ChoiceTable of ContentsPart I. Theoretical framework; 1. Decoupling and hierarchies of scale; 2. Effective actions; 3. Power counting and matching; 4. Symmetries; 5. Boundaries; Part II. Relativistic applications; 7. Conceptual issues (relativistic systems); 8. QCD and chiral perturbation theory; 9. The Standard Model as an effective theory; 10. General Relativity as an effective theory; Part III. Nonrelativistic Applications; 11. Conceptual issues (nonrelativistic systems); 12. Electrodynamics of non-relativistic particles; 13. First-quantized methods; Part IV. Many-body applications; 14. Goldstone bosons again; 15. Degenerate systems; 16. EFTs and open systems; Appendix A Conventions and units; Appendix B Momentum eigenstates and scattering; Appendix C Quantum field theory: a cartoon; Appendix D Further reading; References; Index.

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Book SynopsisThis lively well-illustrated collection of articles written by a group of particle physicists at Los Alamos National Laboratory presents to the expert and non-expert alike a comprehensive overview of the major theoretical and experimental advances of the past twenty years. It explains the emergence of a profoundly new understanding of the fundamental forces of Nature. With the unification of the weak and electromagnetic interaction, physicists now stand at the brink of a complete unification of all the forces, including gravity. This achievement brought with it a rich vocabulary of names and concepts: quarks, gluons and nonabelian gauge theories. The exposition of these ideas, done on a variety of technical levels is designed to interest a broad audience ranging from the professional theorist and experimentalist to the inquisitive student. Anyone with an interest in particle physics can enjoy this book.Table of ContentsPreface; Introduction; Part I. Theoretical Framework: 1. Scale and dimension - From animals to quarks Geoffrey B. West; 2. Particle physics and the standard model Stuart Raby, Richard C. Slansky and Geoffrey B. West; QCD on a Cray: the masses of elementary particles Gerald Guralnik, Tony Warnock and Charles Zemach; Lecture Notes - From simple field theories to the standard model; 3. Toward a unified theory: an essay on the role of supergravity in the search for unification Richard C. Slansky; 4. Supersymmetry at 100 GeV Stuart Raby; 5. The family problem T. Goldman and Michael Martin Nieto; Part II. Experimental Developments: 6. Experiments to test unification schemes Gary H. Sanders; 7. The march toward higher energies S. Peter Rosen; LAMPF II and the High-Intensity Frontier Henry A. Thiessen; The SSC - An engineering challenge Mahlon T. Wilson; 8. Science underground - the search for rare events L. M. Simmons, Jr; Part III. Personal Perspectives: 9. Quarks and quirks among friends Peter A. Carruthers, Stuart Raby, Richard C. Slansky, Geoffrey B. West and George Zweig; Index.

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Book SynopsisThis book, written by a non-statistician for non-statisticians, emphasises the practical approach to those problems in statistics which arise regularly in data analysis situations in nuclear and high-energy physics experiments. Rather than concentrating on formal proofs of theorems, an abundant use of simple examples illustrates the general ideas which are presented, showing the reader how to obtain the maximum information from the data in the simplest manner. Possible difficulties with the various techniques, and pitfalls to be avoided, are also discussed. Based on a series of lectures given by the author to both students and staff at Oxford, this common-sense approach to statistics will enable nuclear physicists to understand better how to do justice to their data in both analysis and interpretation.Trade Review'The book should be essential reading … for all graduate students in the field and will be welcomed by their supervisors.' Contemporary Physics'It should be a valuable tool in any physical scientist's armour.' The Australian PhysicistTable of ContentsPreface; 1. Experimental errors; 2. Probability and statistics; 3. Distributions; 4. Parameter fitting and hypothesis testing; 5. Detailed examples of fitting procedures; 6. Monte Carlo calculations; Appendices; Bibliography; Index.

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