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Books in Physics

Physics titles offer comprehensive research and advancements across the fundamental and applied areas of physical science. From quantum mechanics and particle physics to astrophysics and materials science, these titles drive innovation and deepen understanding of the principles governing the universe. Essential for researchers, educators, and students, this collection supports scientific progress and practical applications across a diverse range of physics disciplines.

BooksJournals

    • Quantum Theory of the Solid State A

      • 1st Edition
      • December 2, 2012
      • Joseph Callaway
      • English
      • Paperback
        9 7 8 0 1 2 4 3 1 4 4 7 4
      • eBook
        9 7 8 0 3 2 3 1 5 2 4 9 5
      Quantum Theory of the Solid State, Part A, describes the concepts and methods, and introduces some of the central problems of the quantum theory of solids. This work is intended to be a single intellectual unit, although for reasons of convenience it has been divided into two parts. Part A contains much of the formalism required for the theoretical study of solids; Part B is oriented toward more specific problems. The present volume includes phenomenological treatments of lattice vibrations and magnetic order; a discussion of symmetry groups; and a description of the properties of one-electron wave functions and the principal techniques for calculating energy levels. Fairly lengthy bibliographies have been included at the end of each chapter to assist readers in making their way through the more specialized periodical literature. This book should be suitable as a textbook for students who have completed a one-year course in quantum mechanics and have some familiarity with the experimental facts of solid state physics. It should also be useful as a reference work.

    • Photosynthetic Reaction Center

      • 1st Edition
      • December 2, 2012
      • Johann Deisenhofer + 1 more
      • English
      • Paperback
        9 7 8 0 1 2 4 1 2 0 7 3 0
      • eBook
        9 7 8 0 3 2 3 1 4 0 4 2 3
      The availability of the photosynthetic reaction center's structure at an atomic resolution of less than three angstroms has revolutionized research. This protein is the first integral membrane protein whose structure has been determined with such precision. Each volume of the Photosynthetic Reaction Center contains original research, methods, and reviews. Together, these volumes cover our current understanding of how photosynthesis converts light energy into stored chemical energy.Volume I describes the chemistry and biochemistry of photosynthesis, including green plant photosynthesis; it is devoted to the overall features and implications of the bacterial reaction center for green plant research. It features a new description of the structure of the reaction center, followed by coverage of the antenna and light functions. Volume I also details new manipulations of the reaction center including chemical and genetic modifications. It describes how the reaction center provides reducing power via electron transfer chemistry coupled to proton uptake and release; coupling of electron transport between the oxidized reaction center and the aqueous periplasm; and the general operation of membrane-bound proteins. Additionally, this volume contains five chapters detailing facets of green plant photosynthesis important for future research.

    • Finite-Size Scaling

      • 1st Edition
      • Volume 2
      • December 2, 2012
      • J. Cardy
      • English
      • Paperback
        9 7 8 0 4 4 4 8 7 1 1 0 7
      • eBook
        9 7 8 0 4 4 4 5 9 6 0 6 2
      Over the past few years, finite-size scaling has become an increasingly important tool in studies of critical systems. This is partly due to an increased understanding of finite-size effects by analytical means, and partly due to our ability to treat larger systems with large computers. The aim of this volume was to collect those papers which have been important for this progress and which illustrate novel applications of the method. The emphasis has been placed on relatively recent developments, including the use of the &egr;-expansion and of conformal methods.

    • Subnuclear Phenomena Part A

      • 1st Edition
      • December 2, 2012
      • A Zichichi
      • English
      • Paperback
        9 7 8 0 1 2 4 3 1 6 7 6 8
      • Hardback
        9 7 8 0 1 2 7 8 0 5 8 0 1
      • eBook
        9 7 8 0 3 2 3 1 5 4 8 0 2
      Subnuclear Phenomena, Part A is the first part of the compilation of the proceedings of the seventh Course of the International School of Physics, held in July 1969 in Erice, Italy. The said program is focused on the analyticity and algebraic properties in particle physics. Topics covered in the book include inelastic electron scattering; multiperipheral dynamics; duality and exchange degeneracy; anomalies of currents in Spinor field theories; the quark model and its developments; and the Efimov-Fradkin method in nonlinear field theory. The book also covers other areas such as the normalization of the wave function; causality and relativity; and the Feynman-Wheeler electrodynamics. The text is recommended for physicists, especially those interested in the further study of particle physics.

    • Magnetism And Metallurgy Of Soft Magnetic Materials

      • 1st Edition
      • December 2, 2012
      • C.W. Chem
      • English
      • Paperback
        9 7 8 0 4 4 4 5 6 9 9 3 6
      • eBook
        9 7 8 0 4 4 4 6 0 1 1 9 3
      Magnetism and Metallurgy of Soft Magnetic Materials consistently and coherently presents the principles underlying the intrinsic and applied properties of soft magnets. This book is divided into two parts, focusing on magnetism and metallurgy. The first part of this book provides the various kinds of magnetism and the fundamental quantities of magnetism, such as magnetic poles, magnetic dipole, magnetic moment, magnetic field and magnetic induction. The second and third chapters focus on the theories of ferromagnetism and ferrimagnetism, as well as their domain structure and magnetization processes. The next chapter deals with the different magnetic properties, such as the intrinsic properties and the two structure-sensitive properties, the static properties and the dynamic properties. The second half of this book deals with the metallurgy and application of soft magnetic materials, such as the pure iron and steels, iron-silicon alloys, nickel-iron alloys, iron-cobalt alloys, ferrites, and thin films. Finally, this book offers special topics on radiation effects and magnetic bubbles and devices.

    • Classical Mechanics

      • 1st Edition
      • December 2, 2012
      • A. Douglas Davis
      • English
      • Paperback
        9 7 8 0 1 2 4 1 4 6 2 1 1
      • Hardback
        9 7 8 0 1 2 2 0 6 3 4 0 4
      • eBook
        9 7 8 0 3 2 3 1 4 9 4 0 2
      Classical Mechanics focuses on the use of calculus to solve problems in classical mechanics. Topics covered include motion in one dimension and three dimensions; the harmonic oscillator; vector algebra and vector calculus; and systems of particles. Coordinate systems and central forces are also discussed, along with rigid bodies and Lagrangian mechanics. Comprised of 13 chapters, this book begins with a crash course (or brief refresher) in the BASIC computer language and its immediate application to solving the harmonic oscillator. The discussion then turns to kinematics and dynamics in one dimension; three-dimensional harmonic oscillators; moving and rotating coordinate systems; and central forces in relation to potential energy and angular momentum. Subsequent chapters deal with systems of particles and rigid bodies as well as statics, Lagrangian mechanics, and fluid mechanics. The last chapter is devoted to the theory of special relativity and addresses concepts such as spacetime coordinates, simultaneity, Lorentz transformations, and the Doppler effect. This monograph is written to help students learn to use calculus effectively to solve problems in classical mechanics.

    • Quantum Tunnelling in Condensed Media

      • 1st Edition
      • Volume 34
      • December 2, 2012
      • Yu. Kagan + 1 more
      • English
      • Paperback
        9 7 8 0 4 4 4 5 6 8 9 1 5
      • eBook
        9 7 8 0 4 4 4 6 0 0 4 7 9
      The essays in this book deal with of the problem of quantum tunnelling and related behavior of a microscopic or macroscopic system, which interacts strongly with an "environment" - this being some form of condensed matter. The "system" in question need not be physically distinct from its environment, but could, for example, be one particular degree of freedom on which attention is focussed, as in the case of the Josephson junction studied in several of the papers. This general problem has been studied in many hundreds, if not thousands, of articles in the literature, in contexts as diverse as biophysics and quantum cosmology. The editors have grouped together papers which are representative of the main trends in this area in the last fifteen years or so and sufficiently related in general spirit and terminology that common themes can be discerned. The contributions are primarily theoretical, but the comparison with experiment is discussed wherever possible.

    • Electromagnetism and the Earth's Interior

      • 1st Edition
      • December 2, 2012
      • Tsuneji Rikitake
      • English
      • Paperback
        9 7 8 0 1 2 4 0 5 4 2 4 0
      • eBook
        9 7 8 0 3 2 3 1 6 2 5 0 0
      Electromagnetism and the Earth's Interior reviews the earth's magnetic fields in terms of physical processes that are occurring in the earth's interior. The book describes the distribution of the earth's magnetic field in terms of declination, horizontal intensity, and vertical intensity. The dynamo theory concerns the self-exciting electric generation in the interior of the earth, and can account for any geomagnetic secular variation. A workable laboratory model—a dynamo mechanism of Lowes and Wilkinson (1963) has a significant role on the dynamo theory for the model actually demonstrated Herzenberg's proof that was developed mathematically. The text also describes various aspects of long-term geomagnetic variations, such as the decrease in the dipole moment, the reversal of the geomagnetic field, the drift of eccentric dipole, the fluctuation in the length of day, and the geomagnetic secular variation. The book also investigates the possible effects of the ocean on geomagnetic variations. The characteristics of transient geomagnetic variations on islands can point to a possible special underground structure. The book is suitable for geologists, astrophysicists, seismologists, and students of the natural sciences.

    • Neutron Cross Sections

      • 1st Edition
      • December 2, 2012
      • S Mughabghab
      • English
      • Paperback
        9 7 8 0 1 2 4 1 2 3 2 0 5
      • eBook
        9 7 8 0 3 2 3 1 4 2 3 5 9
      Neutron Cross Sections, Volume 1: Neutron Resonance Parameters and Thermal Cross Sections, Part A represents the fourth edition of what was previously known as BNL-325, Neutron Cross Sections, Volume 1. This three-chapter book provides the extensive list of detailed individual resonance parameters for each isotope. The first chapter deals with the thermal cross sections and average resonance parameters, as well as the physics of thermal and resonance neutrons, with particular emphasis on evaluation methods. This chapter also includes tables of standards of capture cross sections and scattering lengths, and commonly used nuclear physics formulas. The second chapter covers the direct or valence capture and the Brink-Axel treatment of electric dipole radiation. These topics are followed by a discussion on spin-dependent scattering lengths that are of interest to solid state. The third chapter describes the Maxwellian 30-keV capture cross sections that are of importance to studies of nucleosynthesis and age of the universe. This chapter also examines the s- and p-wave average radiative widths and gamma-ray strength functions that are required in capture cross section measurements. This book will appeal to nuclear and astrophysicists.

    • Electron-Molecule Interactions and Their Applications

      • 1st Edition
      • December 2, 2012
      • L Christophorou
      • English
      • Paperback
        9 7 8 0 1 2 4 1 2 3 8 6 1
      • eBook
        9 7 8 0 3 2 3 1 4 3 0 1 1
      Electron-Molecule Interactions and Their Applications, Volume 1 presents a comprehensive account of electron-molecule interactions in high- and ultra-high-pressure gases and liquids. Topics covered include elastic scattering of electrons by molecules; excitation, ionization, and dissociation of molecules by electron impact; electron-molecule resonances; and electron attachment and detachment processes. This volume is comprised of seven chapters and begins with a discussion on non-resonant elastic scattering and rotational excitation of molecules by electrons, followed by a review of non-resonant vibrational and electronic excitation. The reader is then introduced to resonance effects in electron scattering; electron-induced ionization and dissociation of molecules; and electron-molecule resonances. The ionization mechanisms and types of ions produced are highlighted, along with differential ionization cross sections. The final two chapters focus on electron attachment and detachment processes, paying particular attention to modes of electron capture by molecules such as via negative-ion resonant states. The collisional dynamics for a few selected atomic reactants are also described. Physicists will find this book extremely helpful.

Related subjects

Condensed matter physics

Instrumentation

Interdisciplinary physics

Nonlinear statistical and applied physics

Nuclear and high energy physics

Optics with atomic molecular and plasma physics

Physics general

Surfaces and interfaces