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Elsevier

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.

  • Nuclear Research With Low Energy Accelerators

    • 1st Edition
    • Jerry Marion
    • English
    Nuclear Research with Low Energy Accelerators describes the various programs using low energy accelerators. This book discusses the various techniques and instruments that are available, including beam pulsing or the use of sophisticated high-resolution detecting systems. Comprised of 23 chapters, this book starts with an overview of the application of lithium-drifted germanium gamma-ray detectors in single detector systems from the perspective of obtaining optimum performance. This text then discusses the nuclear electromagnetic transition probabilities that can be measured by different methods, including Coulomb excitation, electron scattering, and nuclear resonance fluorescence. Other chapters explain the general characteristics and geometry of a coincidence–anticoin... spectrometer. This book discusses as well the different uses of magnetic spectrometers in experimental studies of nuclear physics. The final chapter deals with the easy access to fast digital computers to obtain more sophisticated raw information. This book is a valuable resource for physicists, nuclear physicists, and astrophysicists.

  • Beam And Fiber Optics

    • 1st Edition
    • J.A. Arnaud
    • English
    Beam and Fiber Optics discusses the concepts of wave and geometrical optics that are most relevant to a deeper understanding of beam optics. This book is organized into five chapters that provide the necessary algebraic details, particularly the laws of beam propagation through unaberrated optical systems. The first chapter presents a broad view of the subject matter and a comparison between the laws of mechanics and the laws of optics. Chapter 2 explores the laws of propagation of Gaussian beams through freespace, unaberrated lenses, or lenslike media and resonators. The simplest configurations (two-dimensional with isotropic media) are first considered, but a few advanced problems are also treated. This chapter also discusses the use of Gaussian beams at millimeter wavelengths. In Chapter 3, various wave equations relevant to beam optics are given, and their relationship is examined. This text also emphasizes the importance of the Lorentz reciprocity theorem for problems of coupling between beams or fibers. The geometrical optics limit of wave equations is addressed in Chapter 4. This chapter also considers the propagation of optical pulses in dispersive inhomogeneous (graded-index) fibers based on the point of view of Hamiltonian optics. The final chapter is devoted to piecewise homogeneous dielectric waveguides, such as the dielectric slab and the dielectric rod. A method to evaluate the bending loss of open waveguides is described. This book will be useful to students, professors, and research engineers in the field of electromagnetic communication.

  • Holography

    Expanded and Revised from the French Edition
    • 1st Edition
    • M Francon
    • English
    Holography reviews advances in the field of holography and its various applications in areas such as interferometry, microscopy, and acoustics. Topics range from acoustic holography to image multiplexing, formation of images in holography, and holography by computer. Some experiments based on Gabor's holography are also presented. This book is comprised of five chapters and begins with an overview of the fundamentals of holography, with particular reference to spatial and temporal coherence, diffraction at finite and infinite distances, and filtering of spatial frequencies. The reader is then introduced to the principles and applications of holography, focusing on the geometric optics and aberrations of holograms as well as interferometry and microscopy. The following chapters explore how images are produced and reconstructed using a hologram and explain how to detect the differences between two images. Three main types of synthetic holograms are also considered: binary holograms, holograms with several intensity levels, and the holograms called kinoforms. The last chapter is devoted to optical filtering and pattern recognition. This monograph will be of value to physicists and researchers as well as to those interested in how holography works.

  • Vibrational Spectra of Benzene Derivatives

    • 1st Edition
    • G Varsanyi
    • English
    Vibrational Spectra of Benzene Derivatives specifically deals with the problems of the vibrational spectra of benzene and its derivatives. The book is divided into three chapters. Chapter 1 explains the concepts of the electronic and electronic-vibration spectra, vibrational spectra, and rotational spectra. Chapter 2 tackles the normal co-ordinate analysis of the benzene molecule; the force field of substituted benzene derivatives; and elementary problems of intensity analysis. Chapter 3 covers the normal vibrations of benzene and its derivatives, which include tangential vibrations; out-of-plane vibrations; and internal vibrations of substituent groups. The book also contains an appendix dedicated for the frequency region of different normal vibrations of benzene derivatives. The text is recommended for chemists who are intrigued with the problems related to the vibrational spectra of benzene derivatives and are in need of a reference book.

  • Methods of Modern Mathematical Physics

    Functional Analysis
    • 1st Edition
    • Michael Reed
    • English
    Methods of Modern Mathematical Physics, Volume I: Functional Analysis discusses the fundamental principles of functional analysis in modern mathematical physics. This book also analyzes the influence of mathematics on physics, such as the Newtonian mechanics used to interpret all physical phenomena. Organized into eight chapters, this volume starts with an overview of the functional analysis in the study of several concrete models. This book then discusses how to generalize the Lebesgue integral to work with functions on the real line and with Borel sets. This text also explores the properties of finite-dimensional vector spaces. Other chapters discuss the normed linear spaces, which have the property of being complete. This monograph further examines the general class of topologized vector spaces and the spaces of distributions that arise in a wide variety of physical problems and functional situations. This book is a valuable resource for mathematicians and physicists. Students and researchers in the field of geometry will also find this book extremely useful.

  • Facets of Physics

    • 1st Edition
    • D. Allan Bromley
    • English
    Facets of Physics contains the major papers in the symposium on May 3, 1968 dedicated to Gregory Breit's honor. This book covers different facets of physics and the contributions made by Breit. The book reviews the development of the current knowledge of the nucleon-nucleon interaction, the status of understanding on the nuclear matter, and the detailed treatment of the finite nuclei. It also examines the consequences of the short-range nature of nuclear forces, the importance of the Breit interaction in atomic physics and quantum thermodynamics, and different proton-proton scattering studies. This book is a good reading material for nuclear physicists and other scientists who are interested in atomic physics and quantum thermodynamics.

  • Marine Physics

    • 1st Edition
    • R Craig
    • English
    Marine Physics guides different disciplines regarding the study of the sea and provides basic understanding of the fundamental theories and premises of the other disciplines. This book is comprised of eight chapters, beginning with some concepts regarding movement of the sea, such as the density currents, diffusion processes, and wind currents in deep water. These occurrences in the sea are thoroughly discussed and explained through theories and concepts behind them. The next three chapters deal more closely on the broad topic of oceanography. Some of the topics include qualitative physical characteristics, waves in both deep and shallow water, and the tides. The last two chapters discuss optics and acoustics as they are applied in the study of marine science. This book aims to be of use to students in various disciplines involved in not just marine science, but also in engineering, biology, and physics.

  • Subnuclear Phenomena Part B

    • 1st Edition
    • A Zichichi
    • English
    Subnuclear Phenomena, Part B is the second 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. This book includes topics such as leptonic and semileptonic interactions; nonleptonic decays; baryon, nucleon, and meson resonances; inelastic collision of hadrons; and the quark model. Also covered are specialized topics such as the large hydrogen bubble chamber; physics of Ke4 decays; and the dispersion theory. Just like Part A, this part is recommended for physicists, especially those interested in the further study of particle physics.

  • Heat and Concentration Waves

    Analysis and Application
    • 1st Edition
    • G Turner
    • English
    Heat and Concentration Waves: Analysis and Applications describes the behavior of a limited class of waves of temperature or concentration that travels in a continuous medium, which itself is moving. This book is organized into nine chapters that discuss wave equations as solutions to linear differential equations. After briefly dealing with the fundamentals of waves and pulsed, this book goes on discussing the effect of introducing either an impulse or a steady source into a stream of uniform velocity or the so-called one-dimensional flow. The following chapters present some simplest basic equations for parameter determination in a flowing medium. These chapters also describe the pulses at an ideal boundary and the behavior of sine waves at such boundary, including the concept of reflections and the ease with which sine waves overcome the problems of incorporating boundary conditions into an experimental determination. This text further examines the behavior of reservoir phases under time-varying temperature or concentration. A chapter focuses on high-precision experimental measurements of sine waves. The concluding chapter outlines the computational processes, with emphasis on the estimation of experimental errors because of their effect on the reliability of parameter determination. Topics covered in the supplementary texts include the transformation of variables; the evaluation of important integrals; the normal distribution curve; aspects of the Laplace transform; some forms of transport equation common to both heat and mass transfer processes; and the interference of waves. This book will be of value to physical chemists, chemical and petroleum reservoir engineers, process metallurgists, physiologists, hydrologists, and soil scientists.

  • Subnuclear Phenomena Part A

    • 1st Edition
    • A Zichichi
    • English
    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.

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