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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.

  • Gaseous Electronics

    • 1st Edition
    • Merle Hirsh
    • English
    Gaseous Electronics, Volume I: Electrical Discharges deals with the intelligent application of gaseous electronics principles and devices to a variety of practical problems, with emphasis on electrical discharges. This text consists of seven chapters and begins with a discussion on the short history of gaseous electronics. The discussion then turns to the behavior of glow discharges when the applied voltage is direct current or low-frequency alternating current. The applications of cataphoresis, including gas purification, and the effects of cataphoresis on gas lasers are considered. The chapters that follow explore high-frequency and microwave discharges; corona discharges; arcs and torches; and plasmas generated by electron beams and shock waves. These treatments of various kinds of discharge include macroscopic manifestations, such as I-V characteristics and qualitative phenomena, as well as descriptions of the underlying phenomena in terms of microscopic processes. This book is intended for research students and practitioners of electronics and electrical engineering as well as physics.

  • Thermodynamics of Clouds

    • 1st Edition
    • Louis Doufour
    • English
    Thermodynamics of Clouds is Volume 6 of the International Geophysics Series. This volume is an attempt to be a single reference of meteorological works of thermodynamical problems in relation to surface tension and adsorption. Numerous applications of various formulas accompany the text for further understanding of the reader to the concepts featured. The book is divided into 13 chapters where Chapters 1-6 serve as the first part of the book and the second part is from Chapter 7 to Chapter 13. The first part generally discusses and establishes the general formulas of the thermodynamics of surfaces. The method used by the authors is the one by Defay and Prigogine of studying systems in a state of partial equilibrium. The second part of the volume applies the general formulas established in Chapters 1-6 into some meteorological problems such as studies of a droplet or ice crystal suspended in the atmosphere. The text can be used by both graduate and undergraduate students with interest in thermodynamics and climate studies. Professionals such as meteorologists can also use this book as reference in solving some meteorological problems.

  • High Pressure Phase Behaviour of Multicomponent Fluid Mixtures

    • 1st Edition
    • R.J. Sadus
    • English
    The high pressure phase behaviour of binary fluid mixtures has been extensively studied during the last three decades. There is ample experimental data for a wide variety of binary mixtures and extensive methods for prediction have been developed. In contrast, the investigation of ternary and other multicomponent fluids is in its infancy. Experimental ternary mixture critical data are very rare and theoretical studies have been limited to data correlation rather than genuine prediction. The phase behaviour of ternary and other multicomponent fluid mixtures has many novel aspects which are not manifested in binary mixtures. The properties of ternary mixtures are also likely to be more difficult to characterize experimentally. It is in this context that calculated phase diagrams have an important role in leading the discovery of new phenomena and guiding experimental work.The criteria for phase equilibria of multicomponent fluids with particular emphasis on the critical state are examined in this book, and models for predicting fluid equilibria (e.g., different equations of state) are compared. Particular attention is paid to the critical state of ternary mixtures which has hitherto been largely neglected. The problems associated with predicting ternary equilibria are discussed, and some novel aspects of ternary critical phenomena are illustrated. The books also describes a novel type of critical transition which appears to be a common feature of the equilibria of ternary mixtures. Extensive phase diagrams of a wide range of ternary mixtures including systems containing carbon dioxide, water, nitrogen and tetrafluoromethane as one or more component are presented. The theoretical treatment is detailed in the appendix and a computation of known experimental critical points is also included.

  • Remote Sensing of atmospheres and Oceans

    • 1st Edition
    • Adarsh Deepak
    • English
    Remote Sensing of Atmospheres and Oceans presents the technical proceedings of a workshop on the interpretation of remotely sensed data, held in Williamsburg, Virginia in May 1979. The main topic of the workshop is the interpretation and assessment of measurements acquired in remote sounding of different atmospheric and ocean parameters. The book contains 25 papers that cover the following topics: remote sounding of atmospheric temperature; trace gases; precipitation and aerosols; sea surface temperature; ocean color; and winds. These papers are grouped into eight parts under major topics such as inversion methods, aerosol sounding, remote sounding, gaseous constituent retrievals, and interpretation of results from space. The text is a valuable source of information to students and professionals in the fields of atmospheric physics, applied science, meteorology, and engineering.

  • Finite-Size Scaling

    • 1st Edition
    • Volume 2
    • J. Cardy
    • English
    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.

  • Physics in the Making

    Essays on Developments in 20th Century Physics
    • 1st Edition
    • A. Sarlemijn + 1 more
    • English
    H.B.G. Casimir's life, interests and works are intertwined with the importantdevelopment... that have taken place in physics during this century. This book was compiled by his friends and admirers in honour of his 80th birthday andconcentrates mainly on Casimir's achievements in the field of physics, thoughwithout ignoring the peripheral areas of the history and philosophy of physics in which he was greatly interested. The book is divided into four parts. Part I describes Casimir's teachers, Ehrenfest, Bohr and Pauli, and will be of general interest due to the key role which these physicists played in moderndevelopments. The articles do give new facts and provide new insights into thehistory of modern physics. Part II consists of essays on recent developments invarious areas of physics in which Casimir has taken an active interest, such asthe modern concept of time, statistical foundations of electrodynamic theory andfield theory. The subjects covered in Part III have been selected because ofCasimir's efforts in the industrial research area of physics. They cover past,present and future expectations in research. Part IV contains an essay whichdiscusses a philosophy of physics currently under discussion, which states thatphenomenological laws prevail over fundamental ones for the purpose ofexperimental and technical physics. A second chapter in this final part gives acritical analysis of this philosophical view. The book is concluded by anappendix discussing Casimir's activities as a lecturer, written by a formerstudent.

  • Recent Research in Molecular Beams

    • 1st Edition
    • Immanual Estermann
    • English
    Recent Research in Molecular Beam is a collection of scientific papers that have been inspired by Otto Stern, the founder of Molecular Beam Research. This book is composed of 10 chapters and begins with discussions on the early history of molecular beam research. The next chapters describe the velocity distribution measurements made on potassium molecular beams with a fixed-frequency, variable phase velocity selector, along with a brief consideration of the principles and concepts of electron magnetic moment and atomic magnetism. A chapter presents the atomic beam spectroscopic experiments on the metastable state of the hydrogen-like atoms that depend on a wholly different principle for the detection of transitions. This text further explores the effects of variations in the oscillatory field amplitudes, perturbations by neighboring resonances, perturbations by oscillatory fields, variations in the fixed field amplitudes, and phase shifts of the oscillatory fields. These topics are followed by a comparison of advantages and limitations of various techniques for spin property measurement as they apply in particular to radioactive nuclei, such as optical and molecular gas microwave spectroscopy, nuclear and paramagnetic resonance, and atomic beams. The remaining chapters examine fluid friction in a rarefied gas flow; some applications of molecular beam techniques to chemistry; and the polarized neutrons based on a Stern-Gerlach experiment. This work will be of great value to workers and researchers in molecular beam field.

  • Variational Methods in Nuclear Reactor Physics

    • 1st Edition
    • Weston M. Jr. Stacey
    • English
    Nuclear Science and Technology, Volume 10: Variational Methods in Nuclear Reactor Physics presents the mathematical methods of a variational origin that are useful in obtaining approximate solutions to science and engineering problems. This book is composed of five chapters and begins with a discussion on the variation principles for physical systems described by both inhomogeneous and homogeneous equations to develop a generalized perturbation theory. Chapter 2 deals with the applications of variational estimates and generalized perturbation theory to neutron transport problems. Chapter 3 covers the variation principles of the Lagrangian form that are constructed for a general, linear- time-dependent process and for the specific case of the P1 neutron kinetics equations. Chapter 4 presents the general procedure for the variational derivation of synthesis approximations and their applications to problems in reactor physics. This chapter also examines the relationship of the spatial synthesis and finite-element method and a hybrid method that combines features of both methods. Chapter 5 describes the relationship of variation theory with the Hamilton-Jacobi theory and with the optimization theories of the maximum principle and dynamic programming. Nuclear physicists and researchers will find this text invaluable.

  • Unitary Symmetry and Elementary Particles

    • 2nd Edition
    • D Lichtenberg
    • English
    Unitary Symmetry and Elementary Particles, Second Edition presents the role of symmetry in the study of the physics of the elementary particles. This book discusses the nature and scope of unitary symmetry in physics. Comprised of 12 chapters, this edition starts with an overview of the theories of electromagnetism and gravitation to describe the behavior of certain physical systems. This text then examines the two main categories of the mathematical properties of groups, namely, the properties of abstract groups and the properties of representations of groups. Other chapters consider the use of group theory, which is a significant tool in studying symmetry. This book discusses as well the states that are the basis vectors of irreducible unitary representations of Lie group. The final chapter deals with the quark model, which provides a useful way to understand many properties of hadrons in terms of simpler entities. This book is a valuable resource for physicists.

  • Physical Acoustics V9

    Principles and Methods
    • 1st Edition
    • Warren P. Mason
    • English
    Physical Acoustics: Principles and Methods, Volume IX includes four chapters that are device-oriented and devoted to understanding electron drag stresses on dislocations and difference in flow stress between the normal and superconducting states of Type I and Type II superconductors. Chapter 1 explains that when a dislocation moves through a crystal, it gives up energy to the medium either through a nonlinear motion over a dynamic Peierls barrier or through conversion of energy by scattering of electrons or phonons, which takes place with an energy loss proportional to the velocity. The next chapter discusses the propagation of ultrasonic surface waves in thin layers. The thin layer confines a surface wave laterally, providing a desired dispersion characteristic, acting as part of a transducer for generating surface waves, or providing an interaction region for other phenomena. Chapter 3 deals with a generation of solid state control elements that utilize the inverse piezoelectric effect. The last chapter provides approximate equations for coupled resonators and methods for accurately controlling the band frequency and bandwidth. This book is a useful reference for students and physicists working on physical acoustics.

  • Thermal Analysis

    • 1st Edition
    • Bernhard Wunderlich
    • English
    Thermal Analysis deals with the theories of thermal analysis (thermodynamics, irreversible thermodynamics, and kinetics) as well as instrumentation and techniques (thermometry, differential thermal analysis, calorimetry, thermomechanical analysis and dilatometry, and thermogravimetry). Applications of thermal analysis are also described. This book consists of seven chapters and begins with a brief outline of the history and meaning of heat and temperature before listing the techniques of thermal analysis. The reader is then introduced to the basis of thermal analysis, paying particular attention to the macroscopic theories of matter, namely, equilibrium thermodynamics, irreversible thermodynamics, and kinetics. The next chapter discusses thermometry, focusing on the international temperature scale and the techniques of measuring temperature. Examples of heating and cooling curves are linked to the discussion of transitions. The groundwork for a detailed understanding of transition temperature is given. The chapters that follow explore the principles of differential thermal analysis, calorimetry, thermomechanical analysis and dilatometry, and thermogravimetry. This book is intended for the senior undergraduate or beginning graduate student, as well as for the researcher and teacher interested in thermal analysis.

  • Handbook of Radioactivity Analysis

    • 1st Edition
    • Michael F. L'Annunziata
    • English
    Handbook of Radioactivity Analysis is written by experts in the measurement of radioactivity. The book describes the broad scope of analytical methods available and instructs the reader on how to select the proper technique. It is intended as a practical manual for research which requires the accurate measurement of radioactivity at all levels, from the low levels encountered in the environment to the high levels measured in radioisotope research. This book contains sample preparation procedures, recommendations on steps to follow, necessary calculations, computer controlled analysis, and high sample throughput techniques. Each chapter includes practical techniques for application to nuclear safety, nuclear safeguards, environmental analysis, weapons disarmament, and assays required for research in biomedicine and agriculture. The fundamentals of radioactivity properties, radionuclide decay, and methods of detection are included to provide the basis for a thorough understanding of the analytical procedures described in the book. Therefore, the Handbook can also be used as a teaching text.

  • Optical Orientation

    • 1st Edition
    • F. Meier + 1 more
    • English
    This book comprises the first systematic exposition of various physical aspects of the orientation of electron and nuclear spins in semiconductors by optical means.

  • Fine Line Lithography

    • 1st Edition
    • Volume 1
    • R Newman
    • English
    Materials Processing - Theory and Practices, Volume 1: Fine Line Lithography reviews technical information as well as the theory and practices of materials processing. It looks at very large scale integration (VLSI) technology, with emphasis on the creation of fine line patterned structures that make up the devices and interconnects of complex functional circuits. It also describes a variety of other technologies that provide finer patterns, from modified versions of optical methods to electron-optic systems, non-plus-ultra of X-ray techniques, and dry processing that uses the chemical or kinetic energies of gas molecules or ions. Organized into five chapters, this volume begins with an overview of the fundamentals of electron and X-ray lithography, with a focus on resists and the way they function, and how they are used in microfabrication. It then discusses electron scattering and its effects on resist exposure and development, electron-beam lithography equipment, X-ray lithography, and optical methods for fine line lithography. It systematically introduces the reader to electron-beam projection techniques, dry processing methods, and application of electron-beam technology to large-scale integrated circuits. Other chapters focus on contact and proximity printing, projection printing, deep-UV lithography, and shadow printing with electrons and ions. The book describes reactive plasma etching and ion beam etching before concluding with a look at factors affecting the performance of the scanning-probe type of systems. This book is a valuable resource for materials engineers and processing engineers, as well as those in the academics and industry.

  • Proceedings of the Seventeenth Assembly of the European Seismological Commission

    • 1st Edition
    • E. Bisztricsany
    • English

  • Physical Acoustics V5

    Principles and Methods
    • 1st Edition
    • Warren P. Mason
    • English
    Physical Acoustics: Principles and Methods, Volume V focuses on high frequency sound waves in liquids, solids, and gases, which are powerful tools for analyzing the molecular, domain wall, defect, and other types of motions that can take place in these media. This book discusses the measurements and techniques used for studying the effects of impurities on the anelastic properties of crystalline quartz. Comprised of six chapters, this volume starts with an overview of the various effects that can take place when waves are propagated in solids subject to high magnetic fields. This text then discusses the velocity changes and attenuation in solid and liquid metals. Other chapters consider the transmission of sound waves in superconductors and explore the giant quantum oscillations at high magnetic fields. This book discusses as well the X-ray diffraction topological method for investigating resonant vibrations. The final chapter deals with the transmission of hypersonic sound waves. This book is a valuable resource for physicists and engineers.

  • Structure of High-Resolution NMR Spectra

    • 1st Edition
    • P.L. Corio
    • English
    Structure of High-Resolution NMR Spectra provides the principles, theories, and mathematical and physical concepts of high-resolution nuclear magnetic resonance spectra. The book presents the elementary theory of magnetic resonance; the quantum mechanical theory of angular momentum; the general theory of steady state spectra; and multiple quantum transitions, double resonance and spin echo experiments. Physicists, chemists, and researchers will find the book a valuable reference text.

  • Dynamics of Gas-Surface Scattering

    • 1st Edition
    • Frank O. Goodman
    • English
    Dynamics of Gas-Surface Scattering deals with the dynamics of scattering as inferred from known properties of gases and solids. This book discusses measurements of spatial distributions of scattered atomic and molecular streams, and of the energy and momentum which gas particles exchange at solid surfaces. It also considers two regimes of scattering, both of which are associated with a lower range of incident gas energies: the thermal and structure scattering regimes. Comprised of 10 chapters, this book opens with a brief historical overview of the early experiments that investigated the dynamics of scattering of gases by surfaces. The discussion then turns to some elements of the kinetic theory of gases; intermodular potentials and interaction regimes; and classical-mechanical lattice models used in gas-surface scattering theory. The applications of molecular beams to the study of gas-surface scattering phenomena are also described. The remaining chapters focus on experiments and theories on scattering of molecular streams by surfaces of solids, with emphasis on thermal and structure regimes of inelastic scattering; quantum theory of gas-surface scattering; and quantum mechanical scattering phenomena. This text concludes with an analysis of energy exchange processes that may occur when a solid surface is completely immersed in a still gas. This monograph will be a valuable resource for students and practitioners of physics, chemistry, and applied mathematics.

  • Mesoscopic Phenomena in Solids

    • 1st Edition
    • B.L. Altshuler + 2 more
    • English
    The physics of disordered systems has enjoyed a resurgence of interest in the last decade. New concepts such as weak localization, interaction effects and Coulomb gap, have been developed for the transport properties of metals and insulators. With the fabrication of smaller and smaller samples and the routine availability of low temperatures, new physics has emerged from the studies of small devices. The new field goes under the name "mesoscopic physics" and has rapidly developed, both experimentally and theoretically. This book is designed to review the current status of the field.Most of the chapters in the book are devoted to the development of new ideas in the field. They include reviews of experimental observations of conductance fluctuations and the Aharonov-Bohm oscillations in disordered metals, theoretical and experimental work on low frequency noise in small disordered systems, transmittancy fluctuations through random barriers, and theoretical work on the distribution of fluctuation quantities such as conductance. Two chapters are not connected directly to the mesoscopic fluctuations but deal with small systems. They cover the effects of Coulomb interaction in the tunneling through the small junctions, and experimental results on ballistic transport through a perfect conductor.

  • Photochemical Processes in Organized Molecular Systems

    • 1st Edition
    • K. Honda
    • English
    Photochemical processes form the basis of life. Energy transfer through photons also underlies a wide range of phenomena ranging from the motion of atoms and molecules to the assembly of systems of molecules, such as polymers, Langmuir-Blodgett films and even liquid crystals.Photochemic... Processes in Organized Molecular Systems provides an overview of recent photochemical investigations of systems of molecules. The book is divided into four parts: the first two deal with current progress on the understanding of photoinduced chemical processes, the third and fourth chapter deal with the photochemistry of organized molecular systems including polymers, micelles and liquid crystals.This book should be studied by all who want to know more about this promising field of photochemical research, and about the fascinating processes that light can bring about.

  • Geometrical and Algebraic Aspects of Nonlinear Field Theory

    • 1st Edition
    • S. de Filippo + 3 more
    • English
    Experts in general relativity, particle physics and mathematical physics discuss aspects of their recent research. The main emphasis is on the geometrical and algebraic methods used in solving a wide range of problems.

  • Physics in the Modern World

    • 2nd Edition
    • Jerry Marion
    • English
    Physics in the Modern World, Second Edition focuses on the applications of physics in a world dominated by technology and the many ways that physical ideas are manifest in everyday situations, from the operation of rockets and cameras to space travel and X-ray photography. It shows how physical principles bring a pattern of simplicity and continuity to the diverse natural and technological world around us. Automobile air bags, artificial gravity, and pollution control, as well as appliance economics, radar, and other modern phenomena and devices are discussed to emphasize the way that physical principles are applied in today's world. Comprised of 21 chapters, this book begins with an introduction to physical ideas, with particular reference to the basic concepts used in describing and measuring things such as length, time, and mass. The discussion then turns to motion, force, and linear momentum, along with circular motion, torque, and angular momentum. Subsequent chapters focus on gravitation and space travel; energy and electricity; liquids and gases; electromagnetism; heat; waves; electromagnetic radiation; light; atoms; relativity; structure of matter; nuclei and nuclear power; and radiation. Each chapter concludes with a list of exercises that include questions and problems. This monograph is intended for physics students who are specializing in other disciplines.

  • Quantitative Theory of Critical Phenomena

    • 1st Edition
    • George A. Jr. Baker
    • English
    Quantitative Theory of Critical Phenomena details in a self-contained manner the most popular and extensively practiced methods for the quantitative study of critical phenomena. The text is divided into three parts. Part I deals with the general theory of critical phenomena — its thermodynamic aspects, statistical mechanical framework, classical model, and inequalities. Part II tackles the combinatorial theory of series generation. Part III covers the quantitative analysis of series expansions, which includes topics such as the complex variable theory, the algebraic aspects and numerical evaluation of Padé approximants, and special continuation methods. The book is recommended for mathematicians and physicists who would like to know more about critical phenomena, its theories, and the methods for its quantitative study.

  • Man's Impact on Climate

    • 1st Edition
    • Wilfred Bach
    • English
    Man’s Impact on Climate provides a technical review of various aspects of climate change. It deals not only with the general aspects of climate change but also with the climate/food and climate/energy interactions. This book is divided into three parts. The first part explores climate history, climate theory, and climate modeling. This part also offers climate models in which results from past climate events can be verified with paleoclimatic methods; hence, they serve as guides for interpreting future climate simulations. The second part deals with the external causes of climate change that are induced by man, such as altering the composition of the atmosphere, adding heat to the system and changing the characteristics of the earth’s surface. The third and last part focuses on the future climate and potential consequences of climatic changes. It also offers a few constructive solutions in reference to the carbon dioxide problem. Scientists and government officials involved in climate research may find this book valuable.

  • Nonlinear Models of Interacting Populations

    • 1st Edition
    • N Goel
    • English
    On the Volterra and Other Nonlinear Models of Interacting Populations explores the various models brought upon to investigate the different assemblies known to man. Assemblies include populations of various biological species, countries, and political parties among others. Because there are numerous assemblies to be measured and evaluated, it has been decided that a standard model be used to ascertain a detailed investigation. One of the models that have been brought forward is introduced by Volterra, which started as a basis for ecological processes. The book begins by establishing that Volterra’s model is one of the simplest nonlinear competition models. It explores the model through the study of the population growth of a species. It also covers other theories and concepts relating to the Volterra model in the context of the study. These include equilibrium theory, diversity and stability in ecological systems, and time lags in population among others. The book is a helpful reference for students, researchers, scientists, policymakers, and other parties in search of model/s that fully investigate different assemblies.

  • Advances in Microwaves V6

    • 1st Edition
    • Leo Young
    • English
    Advances in Microwaves, Volume 6 is a three-chapter text that explores the fundamental principles of precision coaxial connectors, traveling wave tubes, and junction circulators. Chapter 1 discusses the significant developments in the design, accuracy, and reference standard lines of precision coaxial connectors, with an emphasis on the application of the 7-mm and 14-mm precision coaxial connectors. Chapter 2 examines the stability of strongly modulated beams in a variety of focusing systems, such as uniform magnetic fields (Brillouin and near-Brillouin flow), linearly tapered magnetic fields, and periodic-permanent-m... field systems. Chapter 3 deals with the theoretical aspects and characteristics of all types of junction circulators, with an emphasis on the lumped-element and the stripline circulator. Discussions on a theorem on passive three-port networks and star and delta networks are covered in the supplementary texts.

  • Medium-Energy Ion Reflection from Solids

    • 1st Edition
    • Volume 11
    • E.S. Mashkova + 1 more
    • English
    ``Medium-Energy Ion Reflection from Solids'' analyses the results of experimental, theoretical and computer investigations on the process of scattering of ions by solid surfaces. Surface scattering is a relatively young and rapidly developing branch of the physics of atomic collisions and the literature on this subject has rapidly grown.As the first monograph devoted specifically to surface scattering of ions, this book is directed at scientists involved in ion-solid interaction studies.

  • Nonlinear Phenomena in Fluids, Solids and other Complex Systems

    • 1st Edition
    • P. Cordero + 1 more
    • English
    This book contains short courses in current topics in nonlinear physics given by distinguished professionals in their fields. These include: nonlinear fluid dynamics, transition to turbulence, quantum hall effect, cellular automata and neural networks, phase transitions. These courses are up to date and are aimed at a wide audience, in particular to graduate students and researchers in the field of nonlinear physics.

  • Surface Polaritons

    • 1st Edition
    • Volume 1
    • V. M. Agranovich
    • English
    Modern Problems in Condensed Matter Sciences, Volume I: Surface Polaritons: Electromagnetic Waves at Surfaces and Interfaces describes the basic properties of surface polaritons and the methods of generating these waves in the laboratory at frequencies of interest to condensed matter physicists. The selection first elaborates on surface phonon polaritons in dielectrics and semiconductors and surface exciton polaritons from the experimental viewpoint. Discussions focus on interface polaritons; surface vibrations in anisotropic crystals; experimental methods for the excitation and study of surface polaritons; and surface vibrations in isotropic crystals. The publication then ponders on surface electromagnetic wave propagation on metal surfaces; thermally stimulated emission of surface polaritons; and effects of the transition layer and spatial dispersion in the spectra of surface polaritons. The text takes a look at surface polaritons at metal surfaces and interfaces and resonance of transition layer excitations with surface polaritons. Topics include resonance of the film phonon with the substrate surface phonon polaritons; investigations of surface modifications in ultra-high vacuum; and use of surface plasma waves for the investigation of solid-liquid and solid-solid interfaces. The selection is a dependable reference for physicists and engineers wanting to conduct research on surface polaritons.

  • Many – Body Phenomena At Surfaces

    • 1st Edition
    • David Lengreth
    • English
    Many-Body Phenomena at Surfaces contains the proceedings of a two-week 1983 Workshop on Many-Body Phenomena at Surfaces sponsored by the Institute for Theoretical Physics, University of California, Santa Barbara. This workshop covers the many-body phenomena and the many-particle aspects of structural phenomena. This text is organized into six parts encompassing 29 chapters, and begins with a description of the method generally used to calculate ground state properties, densities, equilibrium positions, adiabatic potential curves, and energies of surfaces with and without an adsorbate atom or molecule. It goes on to apply these methods to binding and the calculation of potential surfaces, followed by a more diffuse section on various spectroscopies. Topics here include the experiments that elucidate the dynamic phenomena and the theoretical description, which is of relevance to dynamics. The next section discusses the dynamic phenomena of the inelastic mechanisms important when atomic and molecular species impinge on a surface. The remaining sections describe some elementary reactions, catalysis, and magneto-catalytic phenomena. This book is directed toward all surface scientists, specifically physicists, chemists, theorists, and experimentalists.

  • Physics and Chemistry of the Solar System

    • 1st Edition
    • John Lewis
    • English
    Physics and Chemistry of the Solar System focuses on planetary physics and chemistry. This book consists of 12 chapters. Chapters I to IV cover the general properties and environment of the planetary system. The solar system beyond Mars is elaborated in Chapters V to VIII, while the inner solar system is considered in Chapters XI to XII. In these chapters, this compilation specifically discusses the limitations on big bang nucleosynthesis; structure and classification of galaxies; and mass and angular momentum distribution. The radio wave propagation in space plasmas; interiors of Jupiter and Saturn; density and composition of icy satellites; and evaporation and non-gravitational forces are also deliberated. This text also explains the physical properties of meteorites; geology of the Moon; geophysical data on Mars; and search for extraterrestrial intelligence. This publication is a good reference for first-year graduate students who intend to take graduate courses in specialized areas of planetary sciences, as well as practicing Ph.D. scientists with training in physics, chemistry, geology, astronomy, meteorology, and biology.

  • Physical Acoustics V6

    Principles and Methods
    • 1st Edition
    • Warren P. Mason
    • English
    Physical Acoustics: Principles and Methods, Volume VI provides five chapters covering the whole of physical acoustics. The first chapter extends the methods for studying high frequency sound waves in the hypersonic range by the technique of Brillouin scattering. The next chapter discusses the acoustic properties of materials of the perovskite structure. These materials have ""soft"" modes, which are transverse optic modes of the phonon spectrum that have unusually low and strongly temperature dependent frequencies. This chapter expounds the influence of the soft modes, with particular attention to potassium tantalate and strontium titanate. The third chapter gives a theoretical treatment of the properties and possibilities of surface waves in crystals that are becoming of increasing interest for delay lines, amplifiers of sound waves, and other practical applications. The fourth chapter discusses the experimental methods and results of the dynamic shear properties of solvents and polystyrene solutions from 20 to 300 MHz, including a description of its materials and steady-flow properties. The final chapter deals with condensed helium, which requires quantum reactions to account for its properties. While the experimental data on solid helium are still insufficient, this chapter gives both a theoretical and an experimental account of sound propagation in solid helium, including various liquid forms. This book is recommended to both students and physicists conducting research on physical acoustics.

  • Silicon Processing for Photovoltaics II

    • 1st Edition
    • C.P. Khattak + 1 more
    • English
    The processing of semiconductor silicon for manufacturing low cost photovoltaic products has been a field of increasing activity over the past decade and a number of papers have been published in the technical literature. This volume presents comprehensive, in-depth reviews on some of the key technologies developed for processing silicon for photovoltaic applications. It is complementary to Volume 5 in this series and together they provide the only collection of reviews in silicon photovoltaics available.The volume contains papers on: the effect of introducing grain boundaries in silicon; the commercial production for multicrystalline silicon ingots and ribbon; epitaxial solar cell fabrication; metallurgical approaches to producing low-cost meltstock; the non-conventional bifacial solar cell approach.

  • Fusion Part A

    Magnetic confinement Part A
    • 1st Edition
    • Edward Teller
    • English
    Fusion, Volume I: Magnetic Confinement, Part A is the first of the two-part volume that covers the complexity and application of controlled magnetic fusion. This book is divided into seven chapters and starts with a brief historical overview and some properties of controlled fusion. The subsequent chapters deal with the principles, thermodynamic stability, and configuration of Tokamak plasma. These topics are followed by discussions of the variations and application of stellarators; the concepts of mirror theory; and the establishment of the experimental basis of the mirror-confinement physics. The last chapter focuses on the principles, configuration, and application of the reversed-field pinch. This book will prove useful to physicists, physics students, and researchers.

  • Brownian Motion and Classical Potential Theory

    • 1st Edition
    • Sidney Port
    • English
    Brownian Motion and Classical Potential Theory is a six-chapter text that discusses the connection between Brownian motion and classical potential theory. The first three chapters of this book highlight the developing properties of Brownian motion with results from potential theory. The subsequent chapters are devoted to the harmonic and superharmonic functions, as well as the Dirichlet problem. These topics are followed by a discussion on the transient potential theory of Green potentials, with an emphasis on the Newtonian potentials, as well as the recurrent potential theory of logarithmic potentials. The last chapters deal with the application of Brownian motion to obtain the main theorems of classical potential theory. This book will be of value to physicists, chemists, and biologists.

  • Elastic Strain Fields and Dislocation Mobility

    • 1st Edition
    • Volume 31
    • V.L. Indenbom + 1 more
    • English
    This volume aims to provide a thorough treatment of the phenomena of elastic anisostropy and a discussion on dislocation mobilities. The book presents a wide treatment of these topics, and includes descriptions of detailed theoretical models to describe dislocations and cracks, and moving dislocations. An overview is given of the physical behaviour resulting from dislocation mobility in materials, such as glide and climb, interactions with point defects and the behaviour of dislocations under radiation such as creep and swelling.

  • Solutions In Action

    • 1st Edition
    • Karl Lanngren
    • English
    Solitons in Action is a collection of papers that discusses the concept of a wave packer or pulse known as a soliton. One paper reviews the development of the solitary wave concept, with emphasis on the difference between a solitary wave and a soliton. The Korteweg-deVries (KdV) equation shows the interactions between infinite sets of conservation laws and the inverse scattering transform method. The Backlund transform technique produces hierarchies of multisoliton solutions for nonlinear wave equations. The Gel-'fand-Levitan algorithm can effect an inverse scattering calculation that relates changes in the scattering data to changes in the solution of corresponding wave equation. One paper points out that concepts in differential geometry can show the fundamental nature of soliton behavior and the relationship between inverse scattering and the Backlund transformation. Solitons in action can be viewed as magnetic flux propagates through a gap (between two closely-spaced superconductors) in quantum units. This view results in a simplified procedure for perturbation expansions around multisoliton solutions. This collection can prove useful for researchers involved in the study of fluid mechanics, of pure and applied sciences, of mathematical sciences, and of wave theory.

  • Path Integrals and Quantum Processes

    • 1st Edition
    • Mark S. Swanson
    • English
    In a clearly written and systematic presentation, Path Integrals and Quantum Processes covers all concepts necessary to understand the path integral approach to calculating transition elements, partition functions, and source functionals. The book, which assumes only a familiarity with quantum mechanics, is ideal for use as a supplemental textbook in quantum mechanics and quantum field theory courses. Graduate and post-graduate students who are unfamiliar with the path integral will also benefit from this contemporary text. Exercise sets are interspersed throughout the text to facilitate self-study.

  • 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.

  • Phase Transitions and Adsorbate Restructuring at Metal Surface

    • 1st Edition
    • Volume 7
    • D.A. King + 1 more
    • English
    The objective in initiating this series in 1980 was to provide an in-depth review of advances made in the understanding key aspects of surface chemistry and physics through the application of new techniques to the study of well-defined surfaces. Since then the field of surface science has greatly matured, and further important techniques, particularly scanning probe microscopies, have been successfully assimilated into the applications armoury of the surface scientist.The present volume is a series of timely reviews by many of the current experts in the field of phase transitions and adsorbate-induced surface restructuring. No aspect of the science of solid surfaces can be fully understood without accounting for the structural diversity of surfaces, now revealed in atomic detail by techniques based on diffraction and scanning probe microscopies. For example, it is now clear to those working in heterogeneous catalysis that adsorbate-induced restructuring of surfaces can play a critical role in phenomena such as bistability, kinetic oscillations, and promotion and poisoning. Structural transitions at surfaces can also play a key role in determining the electronic properties of surfaces, reviewed in volume 5.

  • Thermophysics and Temperature Control of Spacecraft and Entry Vehicles

    • 1st Edition
    • Gerhard Heller
    • English
    Progress in Astronautics and Aeronautics, Volume 18: Thermophysics and Temperature Control of Spacecraft and Entry Vehicles is a selection of technical papers based on two American Institute of Aeronautics and Astronautics meetings, namely, The Thermophysics Specialist Conference, held in Monterey, California on September 13-15, 1965 and the Third Aerospace Sciences Conference, held in New York on January 1966. This book covers the most important problems of thermophysical research and technology. This volume is composed of six parts encompassing 42 chapters. Part I contains papers on the thermal radiation properties of solids, including measuring techniques for solar reflectance and infrared emittance determination, and a paper on radiative transfer. Part II deals with the lunar and planetary thermal environment and includes research papers on emissivities, reflectivities, and polarization by planetary atmospheres and planetary surfaces. Part III discusses the effects of the space environment on the optical properties of thermal control surfaces. This part also presents results of flight experiments with sensors of environmental effects and flight experience with thermal coatings of satellites. Part IV covers the thermophysical measurements of ablative materials and with the char layers formed during the actual vehicle entry period or during laboratory simulation tests. Part V looks into the two comparatively areas of thermophysics, namely, the thermal similitude (thermal modeling) and interface resistance of joints under space conditions. Part VI summarizes the practical experience in thermal design gained on spacecraft flights. Thermophysicists, space engineers and designers, and research workers who are interested in thermophysical technology will find this book invaluable.

  • Continuum Physics

    Mixtures and EM field Theories
    • 1st Edition
    • A Eringen
    • English
    Continuum Physics, Volume III: Mixtures and EM Field Theories discusses the field theories for bodies composed of different substances, such as mixtures and interaction of electromagnetic effects with the deformable bodies. This book aims to present the mathematical foundations of nonlinear mechanical, electrical, and magnetic phenomena that take place in mixtures and materially uniform bodies. This volume consists of three parts. Part I is devoted to the development of the theory of mixtures, including kinematics, balance laws, and constitutive equations for bodies consisting of several different substances. Part II is concerned with the mechanics of deformable bodies interacted by electromagnetic fields. The deformation produced by EM fields, EM fields resulting from the deformation of bodies, and plethora of other physical phenomena arising from mechanical and EM interactions are also covered. Micromagnetism is covered in Part III, including considerations arising from the interaction of strong magnetic fields with the inner structure of the body. This publication is valuable to students and researchers interested in mixtures and EM field theories.

  • Nanostructures and Mesoscopic systems

    • 1st Edition
    • Wiley Kirk
    • English
    Nanostructures and Mesoscopic Systems presents the proceedings of the International Symposium held in Santa Fe, New Mexico on May 20-24, 1991. The book discusses nanostructure physics; nanostructures in motion; and advances in nanostructure fabrication. The text also describes ballistic transport and coherence; low-dimensional tunneling; and electron correlation and coulomb blockade. Banostructure arrays and collective effects; the theory and modeling of nanostructures; and mesoscopic systems are also encompassed. The book further tackles the optical properties of nanostructures.

  • Solid State Ionics

    • 1st Edition
    • H.L. Tuller + 2 more
    • English
    In recent years Solid State Ionics have attracted considerable interest due to the important role which they may play in the future of microelectronics and eventually in other fields of energy storage. This volume presents papers on the theory, experiments and applications in this field including: New materials; Insertion compounds; Transport; Structure; Polymeric electrolytes; Mixed conductors; Protonic and oxygen conductors; and electrochromics.

  • Plasma Polymerization

    • 1st Edition
    • H K Yasuda
    • English
    Plasma Polymerization aims to bridge the conceptual gap between the academic and practical approaches to plasma polymerization and highlights the significance of plasma polymerization in materials science and technology. The major topics covered are gas-phase kinetics, ionization of gases, fundamentals of polymerization, mechanism of polymer formation in plasma, competitive aspects of polymer formation and ablation, mechanism of polymer deposition, operational factors of plasma polymerization, and electrical properties of plasma polymers. This book is comprised of 11 chapters and begins with a brief overview of plasma polymerization and its growing importance for the formation of entirely new kinds of materials. The discussion then shifts to a comparison between plasma-state polymerization and plasma-induced polymerization, between plasma polymerization and graft polymerization, and between plasma polymerization and radiation polymerization. The reader is also introduced to fundamental aspects of gas-phase reactions, paying particular attention to the classical kinetic theory of gas, as well as the mechanisms of formation of polymeric materials in plasma, competitive ablation and polymer formation in plasma, and polymer deposition in plasma polymerization. The operational parameters of plasma polymerization are described and a chapter devoted to the electrical properties of plasma-polymerized thin organic films concludes the book. This book will be of interest to students and researchers of material science.

  • Mathematical Techniques and Physical Applications

    • 1st Edition
    • J Killingbeck
    • English
    Mathematical Techniques and Physical Applications provides a wide range of basic mathematical concepts and methods, which are relevant to physical theory. This book is divided into 10 chapters that cover the different branches of traditional mathematics. This book deals first with the concept of vector, matrix, and tensor analysis. These topics are followed by discussions on several theories of series relevant to physics; the fundamentals of complex variables and analytic functions; variational calculus for presenting the basic laws of many branches of physics; and the applications of group representations. The final chapters explore some partial and integral equations and derivatives of physics, as well as the concept and application of probability theory. Physics teachers and students will greatly appreciate this book.

  • Chemical Compounds in The Atmosphere

    • 1st Edition
    • T Graedel
    • English
    Chemical Compounds in the Atmosphere deals with the chemistry of organic and inorganic compounds found in the atmosphere, including rare gases and compounds of oxygen and hydrogen, halogenated aromatic compounds, and organometallic compounds. The sources and concentrations of atmospheric trace gases are discussed, along with their chemical reactions and ultimate fates. The compounds are divided into groups on the basis of chemical constituent or chemical structure. Comprised of 10 chapters, this book opens with an overview of atmospheric composition and atmospheric chemistry, followed by a discussion on inorganic compounds present in the troposphere such as rare gases and compounds containing nitrogen, sulfur, and halogens. The next chapters focus on hydrocarbons such as alkanes, alkenes, and alkynes; carbonyl compounds such as ketones and aldehydes; oxygenated and nitrogen- and sulfur-containing organic compounds; organic halogenated compounds such as mercaptans and thiocyanates; and organometallic compounds such as organophosphorus pesticides. The final chapter is a synthesis of data on atmospheric compounds mentioned in this text, with emphasis on their occurrence, sources, oxidation, and lifetimes. The chemistry of acid rain is also considered. This monograph will be of value to those engaged in atmospheric measurements, theoretical and laboratory studies of chemical parameters relevant to the atmosphere, and air quality assessments.

  • Hydrogen in Semiconductors

    • 1st Edition
    • M. Stutzmann + 1 more
    • English
    Hydrogen on semiconductor surfaces has been an area of considerable activity over the last two decades. Structural, thermal, and dynamical properties of hydrogen chemisorbed on crystalline silicon and other semiconductors have been studied in great detail. These properties serve as a reference for related, but more complex systems such as hydrogen at multiple vacancies in crystalline semiconductors or at microvoids in amorphous samples. Interesting from a surface physics point of view is the fact that hydrogen as a monovalent element is an ideal terminator for unsaturated bonds on surfaces and therefore tends to have a large influence on surface reconstruction. A related phenomenon with large technological impact (for example in low cost solar cells) is the passivation of grain boundaries in microcrystalline semiconductors. Finally, hydrogenated semiconductor surfaces always appear as a boundary layer during low-energy hydrogenation of bulk semiconductors, so that a complete description of hydrogen uptake or desorption necessarily has to take these surfaces into account.This collection of invited and contributed papers has been carefully balanced to deal with amorphous and crystalline semiconductors and surfaces and presents basic and experimental work (basic and applied) as well as theory. The resulting volume presents a summary of the state-of-the-art in the field of hydrogen in semiconductors and will hopefully stimulate future work in this area.

  • Vacuum Engineering Calculations, Formulas, and Solved Exercises

    • 1st Edition
    • Armand Berman
    • English
    This book was written with two main objectives in mind - to summarize and organize the vast material of vacuum technology in sets of useful formulas, and to provide a collection of worked out exercises showing how to use these formulas for solving technological problems. It is an ideal reference source for those with little time to devote to a full mathematical treatment of the many problems issued in vacuum practice, but who have a working knowledge of the essentials of vacuum technology, elementary physics, and mathematics. This time saving book employs a problem-solving approach throughout, providing the methodology for computing vacuum parameters. References and solved exercises are appended to the end of each chapter.

  • Metallurgical Coatings and Thin Films 1992

    • 1st Edition
    • G.E. McGuire + 2 more
    • English
    One of the increasingly important requirements for high technology materials is that they possess near-surface properties different to their bulk properties. Specific surface properties are generally achieved through the use of these films or coatings or by modifying the structure or composition of the near surface. This two-volume work contains 157 papers covering a wide range of topics involving films, coatings, and modified surfaces. All aspects of the development of deposition technologies are addressed including basic research, applied research, applications development and full scale industrial production. The work will be of interest to materials scientists, physicists, electronic, chemical and mechanical engineers, and chemists.

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