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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.

  • International Symposium on Nonlinear Differential Equations and Nonlinear Mechanics

    • 1st Edition
    • Joseph Lasalle
    • English
    Nonlinear Differential Equations and Nonlinear Mechanics provides information pertinent to nonlinear differential equations, nonlinear mechanics, control theory, and other related topics. This book discusses the properties of solutions of equations in standard form in the infinite time interval. Organized into 49 chapters, this book starts with an overview of the characteristic types of differential equation systems with small parameters. This text then explains the structurally stable fields on a differentiable two manifold are the ones that exhibit the simplest features. Other chapters explore the canonic system of hyperbolic partial differential equations with fixed characteristics. This book discusses as well the monofrequent oscillations that are predominantly near one or the other of the linear modes of motion. The final chapter deals with the existence and asymptotic character of solutions of the nonlinear boundary value problem. This book is a valuable resource for pure and applied mathematicians. Aircraft engineers will also find this book useful.

  • Principles of Solid State Physics

    • 1st Edition
    • Robert M Levy
    • English
    Principles of Solid State Physics presents a unified treatment of the basic models used to describe the solid state phenomena. This book is divided into three parts. Part I considers mechanical or geometrical properties that are describable by a lattice of mass points. What happens if the electric charge and magnetic moment are to be associated with the lattice points is explained in Part II. Part III discusses the application of the band theory and imperfections in solids. This publication is recommended for a one-semester senior course in solid state physics for students majoring in physics, chemistry, and electrical engineering.

  • Semiconducting Ore Minerals

    • 1st Edition
    • R Shuey
    • English
    Developments in Economic Geology, 4: Semiconducting Ore Minerals provides a comprehensive discussion of the semiconductor physics of ore minerals, which is a specialized field that is interdisciplinary to materials science and earth science. The book is organized into four parts. Part I deals with basic principles such as the electronic structure of solids; electrical conduction in semiconductors; and various crystal properties which, like conductivity, depend primarily upon the electronic structure. It also discusses theoretical and experimental investigations pertinent to complex electrical inhomogeneity. Part 2 examines the properties of elements such as bismuth, copper, and graphite. Part 3 deals with sulfides including arsenopyrite, bornite, chalcocite, chalcopyrite, covellite, molybdenite, pyrrhotite, and sphalerite. Part 4 covers oxides, including cassiterite, cuprite, hematite, magnetite, pyrolusite, and rutile. This book may be a useful reference for those involved with research on ore minerals, including geophysicists, geochemists, or extractive metallurgists.

  • Amplitude Distribution Spectrometers V3

    • 1st Edition
    • Waldemar Scharf
    • English
    Fundamental Studies in Engineering 3: Amplitude Distribution Spectrometers reviews amplitude or pulse-height distribution analyzers, both single- and multichannel types, and spectrometers, along with their construction and operation. It discusses the basic parameters of electrical impulses, the general parameters of amplitude distribution spectrometers, the conventional methods of analyzing amplitude distribution by means of single-channel spectrometers, analysis of amplitude spectra using computer methods, and methods and devices for multiparameter amplitude analysis. Comprised of eight chapters, this volume begins with an overview of physical phenomena that can be represented in the form of electrical impulses arising in transducers of physical quantities. It then discusses the use of pulse-height spectrometers to determine the height distributions of electrical impulses, trends in the development of pulse-height spectrometers, conventional pulse-height analysis, and multispectral scaling. The reader is methodically introduced to the analysis of Gaussian distributions, Fourier-transform analysis, and measuring units used in preliminary signal processing. Other chapters focus on spectrogram recording methods, methods of spectrum averaging, computer methods of spectral analysis, and methods of recording multi-parameter spectrograms. The book concludes with a review of the use of pulse-height spectrometers in a wide range of fields such as medicine, biology, astronomy, nuclear research, space research, and physico-chemical research. Users of amplitude spectrometers in various fields of science and technology will find this book extremely useful.

  • Elementary Particles

    Science, Technology, and Society
    • 1st Edition
    • Luke Yuan
    • English
    Elementary Particles: Science, Technology, and Society is a comprehensive review of some important developments in science and technology in relation to the study of particle physics. The book covers topics such as particle physics - its theory and experimentation, apparatuses, arguments, and speculations; elementary particle interactions in astrophysics; and the interaction of particle research with chemistry. Topics also include the application of accelerated particles in biological research; possible uses of ionizing radiations in radiotherapy; and interactions between elementary particle research and engineering. The text is recommended for particle physicists who would like to know more about the applications of their expertise in the fields of astrophysics, chemistry, biology, medicine, and engineering.

  • Spherical Astronomy

    • 1st Edition
    • Edgar Woolard
    • English
    Spherical Astronomy provides a comprehensive treatment of the fundamental principles of positional astronomy. The text focuses on the principles of spherical astronomy and the theory of fundamental astronomical observations. Discussions are made on topics such as the celestial sphere and the nature of the reference systems of astronomy; the geometric aspects of the celestial sphere in relation to geographic position; systems of time measurement based on the rotation of the earth; and the inertial reference system. Astronomers and astrophysicists will find the book highly insightful.

  • Ion Implantation Science and Technology

    • 1st Edition
    • J.F. Ziegler
    • English
    Ion Implantation: Science and Technology serves as both an introduction to and tutorial on the science, techniques, and machines involved in ion implantation. The book is divided into two parts. Part 1 discusses topics such as the history of the ion implantation; the different types and purposes of ion implanters; the penetration of energetic ions into solids; damage annealing in silicon; and ion implantation metallurgy. Part 2 covers areas such as ion implementation system concepts; ion sources; underlying principles related to ion optics; and safety and radiation considerations in ion implantation. The text is recommended for engineers who would like to be acquainted with the principles and processes behind ion implantation or make studies on the field.

  • Band Structure And Nuclear Dynamics

    Proceedings of the International Conference On Band Structure And Nuclear Dynamics Tulane University, New Orleans
    • 1st Edition
    • A.L. Goodman
    • English
    Band Structure and Nuclear Dynamics contains a compilation of papers that were presented at the International Conference on Band Structure and Nuclear Dynamics. This volume examines the relationships between phenomenological models, such as the VMI, IBA and Bohr-Mottelson models, and it discusses the attempts to provide microscopic foundations for these models. It also reviews other boson expansion techniques. The book includes the experiments on rotating nuclei, which indicate that different phases, shapes, and angular momentum coupling schemes are suitable for different spin regions and different bands; and the HFB-cranking model, which provides a theoretical framework for the interpretation of these rotational phenomena. This volume is subdivided into six parts. The first part focuses on phenomenological collective models, including the theory of nuclear collective motion, VMI and other related models, and the boson-fermion model. Part two discusses strongly deformed nuclei, including the band structure and the structure of the collective bands in it from a microscopic point of view. This part also presents the Hartree-Fock-Bogoliu... theory and the application of the cranking model to Yb bands and band crossings. The third part focuses on transitional nuclei and covers IBA models, symmetric rotor interpretation of interpretation of transitional nuclei, electromagnetic properties of excited bands, and boson models. Part four describes the very high spin states and its Nilsson-Strutinsky model and self-consistent theory. Part five includes three special topics and Part six concludes by providing topics for a round-table discussion.

  • Contemporary Nonlinear Optics

    • 1st Edition
    • Robert Boyd
    • English
    Contemporary Nonlinear Optics discusses the different activities in the field of nonlinear optics. The book is comprised of 10 chapters. Chapter 1 presents a description of the field of nonlinear guided-wave optics. Chapter 2 surveys a new branch of nonlinear optics under the heading optical solitons. Chapter 3 reviews recent progress in the field of optical phase conjugation. Chapter 4 discusses ultrafast nonlinear optics, a field that is growing rapidly with the ability of generating and controlling femtosecond optical pulses. Chapter 5 examines a branch of nonlinear optics that may be termed nonlinear quantum optics. Chapter 6 reviews the new field of photorefractive adaptive neural networks. Chapter 7 presents a discussion of recent successes in the development of nonlinear optical media based on organic materials. Chapter 8 reviews the field of nonlinear optics in quantum confined structures. Chapter 9 reviews the field of nonlinear laser spectroscopy, with emphasis on advances made during the 1980s. Finally, Chapter 10 reviews the field of nonlinear optical dynamics by considering nonlinear optical systems that exhibit temporal, spatial, or spatio-temporal instabilities. This book is a valuable source for physicists and other scientists interested in optical systems and neural networks.

  • The Plasma State

    • 1st Edition
    • Juda Shohet
    • English
    The Plasma State discusses the fundamental principles that describe plasma occurrence. The book reviews the plasma state, collisions, collisional processes, diffusion, mobility, Rutherford scattering, and the collision cross-section. The motion of isolated charged particles occurs in electrical, magnetic, or gravitational fields. During low plasma density and low background gas pressure, the collision frequency is also low. It is during this time that the single particle approach can be studied using a fundamental equation of motion. The text also discusses the problems encountered in the presence of extremely large numbers of particles, moving and interacting with one another. Other topics related to the statistics of collisions and fluid behavior are the collisionless Boltzmann equation, inclusion of collisional processes in statistical descriptions, and the "integrate out" of velocity dependence of the collisionless Boltzmann equation which gives a fluid model of a plasma. The book also describes the different acceleration processes, such as Coulomb collisions, electron or ion-neutral collisions, collective or wave phenomena, that all produce radiation. The text is suitable for students of physics, engineering, atomic physics.

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