The Statistical Theory of Non-Equilibrium Processes in a Plasma
The Statistical Theory of Non-Equilibrium Processes in a Plasma

Author: Yu L Klimontovich

Publisher: Elsevier

Published: 2013-09-17

Total Pages: 301

ISBN-13: 1483214621

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The Statistical Theory of Non-equilibrium Processes in a Plasma covers the modern statistical theory of non-equilibrium processes in a plasma by a unified method, proceeding from the microscopic equations. The book discusses Maxwell equations for slow and fast processes; magnetohydrodynamic equations; microscopic equations for a plasma; and equations with a self-consistent field (Vlasov equations). The text then describes correlation and spectral function; kinetic equations for a plasma; and Landau equations. It also examines the kinetic equations and expressions for spectral functions when the radiation by plasma waves is taken into account; and the hydrodynamic description of processes in a plasma. Physicists and students taking courses in mechanics and mathematics will find the book invaluable.

Principles of Plasma Mechanics
Principles of Plasma Mechanics

Author: Bishwanath Chakraborty

Publisher: New Age International

Published: 2007

Total Pages: 508

ISBN-13: 9788122414462

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This Book Presents A Systematic Exposition Of The Fundamental Principles Involved In Plasma Mechanics. It Also Highlights Some Of The Recent Developments In The Area.The Book Emphasises The Following Topics: * Magnetization By Inverse Faraday Effect * Ionospheric Cross Modulation * Relativistic Vlasov Equations For Waves In Plasmas * Kinetic Theory Of Vlasov For Plasmoidal Equilibrium Structures * Formalism Of Transformation From Laboratory Frame To A Space Independent Frame For Study Of Dispersive Wave.With Its Comprehensive Approach And Detailed Treatment, The Book Would Serve As An Excellent Text For M.Sc. Physics Students As Well As Research Scholars.

Statistical Theory of Open Systems
Statistical Theory of Open Systems

Author: Yu.L. Klimontovich

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 589

ISBN-13: 9401101752

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Let us begin by quoting from the Preface to the author's Statistical Physics (Moscow, Nauka 1982; also published in English by Harwood in 1986): '''My God! Yet another book on statistical physics! There's no room on my bookshelves left!' Such emotionsare quite understandable. Beforejumping to conclusions, however, it would be worthwhile to read the Introduction and look through the table of contents. Then the reader will find that this book is totally different from the existing courses, fundamental and concise. ... We do not use the conventional division into statistical theories ofequilibrium and nonequilibrium states. Rather than that, the theory ofnonequilibrium state is the basis and the backbone oftheentirecourse. ... This approach allows us to develop a unified method for statistical description ofa very broadclassofsystems. ... The author certainly does not wish to exaggerate the advantages of the book, considering it asjustthe first attemptto create a textbookofa new kind." The next step in this direction was the author's Turbulent Motion and the Structure of Chaos (Moscow, Nauka 1990; Kluwer Academic Publishers 1991). This book is subtitled A New Approach to the Statistical Theory of Open Systems. Naturally, the "new approach" is not meant to defy the consistent and efficient methods of the conventional statistical theory; itshould be regarded as auseful reinforcementofsuch methods.

Methods in Nonlinear Plasma Theory
Methods in Nonlinear Plasma Theory

Author: Ronald Davidson

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 377

ISBN-13: 0323153380

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Methods in Nonlinear Plasma Theory is from lectures given in graduate classes in both University of Maryland and University of California at Berkeley. To be able to understand fully the contents in this book, the reader is assumed to be a graduate student with background of classical physics and linear plasma waves and instabilities. This text is divided into two major parts. Part I deals with the coherent nonlinear phenomena, while Part II discusses the turbulent nonlinear phenomena. Six chapters comprise Part I, where basic equations and methods are described and discussed. Some of these methods are Vlasov-Maxwell equations and Korteweg-de Vries equation. Part II meanwhile has eight chapters that discuss frameworks and theories for weak plasma turbulence. Specifically, the weak turbulence theory is presented as it is applied to electromagnetic wave-particle interactions, nonlinear wave-wave interactions, and nonlinear wave-particle interactions. This book is a useful reference for students and researchers in the study of classical physics and plasma theory.

Handbook on Plasma Instabilities
Handbook on Plasma Instabilities

Author: Ferdinand Cap

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 481

ISBN-13: 0323148751

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Handbook on Plasma Instabilities, Volume 1 serves as an introduction to the field of plasma physics and plasma instabilities. Topics covered include basic plasma physics, statistical plasma theory, and magnetohydrodynamics (MHD), as well as the many-species theory and plasma containment. The motion of individual particles, oscillations and waves, and MHD instabilities of a real and an ideal plasma are also discussed. This volume is comprised of 13 chapters and begins with a survey of the various applications of plasma sciences and an overview of the fundamental concepts of plasma physics. Basic plasma physics, the physics of instabilities, orbit theory, kinetic theory, MHD, and the many-fluid theory are then presented. The following chapters focus on the principles of plasma containment and waves in plasmas, together with the basic features of plasma instabilities and their classification. The classical MHD stability theory of an ideal and of a real plasma is also described. The final chapter is devoted to drift waves and drift instabilities in inhomogeneous plasmas, paying particular attention to the theory of gradient instabilities and the microscopic theory of waves in non-homogeneous collisionless plasmas. This handbook is intended for beginners in plasma physics and plasma instabilities and for physicists and engineers working actively in the field.

Quantum Statistics of Nonideal Plasmas
Quantum Statistics of Nonideal Plasmas

Author: Dietrich Kremp

Publisher: Springer Science & Business Media

Published: 2005-12-11

Total Pages: 536

ISBN-13: 3540263357

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During the last decade impressive development and signi?cant advance of the physics of nonideal plasmas in astrophysics and in laboratories can be observed, creating new possibilities for experimental research. The enormous progress in laser technology, but also ion beam techniques, has opened new ways for the production and diagnosis of plasmas under extreme conditions, relevant for astrophysics and inertially con?ned fusion, and for the study of laser-matter interaction. In shock wave experiments, the equation of state and further properties of highly compressed plasmas can be investigated. This experimental progress has stimulated the further development of the statistical theory of nonideal plasmas. Many new results for thermodynamic and transport properties, for ionization kinetics, dielectric behavior, for the stopping power, laser-matter interaction, and relaxation processes have been achieved in the last decade. In addition to the powerful methods of quantum statistics and the theory of liquids, numerical simulations like path integral Monte Carlo methods and molecular dynamic simulations have been applied.

Light Scattering in Planetary Atmospheres
Light Scattering in Planetary Atmospheres

Author: V. V. Sobolev

Publisher: Elsevier

Published: 2017-05-17

Total Pages: 275

ISBN-13: 1483187284

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Light Scattering in Planetary Atmospheres details the theory of radiative transfer for anisotropic scattering. The title emphasizes more on the theoretical aspects, and such focuses more on the fundamental concepts and basic principles rather than the practical application. The text first presents the basic equations, and then proceeds to tackling specific concepts in the subsequent chapters. Chapter 2 discusses the semi-infinite atmospheres, while Chapter 3 tackles atmospheres of finite optical thickness. Next, the selection talks about atmospheres overlying a reflecting surface. The next two chapters in the title discuss the general theory. The seventh chapter details the linear integral equation, while the eighth chapter covers the approximate formulas. The text also deals with the determination of the physical characteristics of planetary atmospheres, along with the theory of radiative transfer in spherical atmospheres. The book will be of great use to scientists involved in the study of celestial bodies, such as astronomers and astrophysicists.