Collective Modes in Inhomogeneous Plasmas

Collective Modes in Inhomogeneous Plasmas PDF

Author: Jan Weiland

Publisher: CRC Press

Published: 1999-01-01

Total Pages: 208

ISBN-13: 9780750305891

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Collective Modes in Inhomogeneous Plasmas: Kinetic and Advanced Fluid Theory presents the collective drift and MHD-type modes in inhomogeneous plasmas from the point of view of two-fluid and kinetic theory. Written by an internationally respected plasma transport theoretician, this introductory monograph emphasizes the description of the plasma rather than the geometry to present a more general approach to a large class of plasma problems. Starting with generalized fluid equations for low frequency phenomena, the author shows how drift waves and MHD-type modes can arise from the effects of inhomogeneities in the plasma. The kinetic description is then presented to reveal a host of phenomena ranging from vortex modes and finite Larmor radius effects to trapped and fast particle instabilities, transport, diffusion, and other advanced fluid effects. Theoretical and computational plasma physicists modeling confined plasmas will find this illustrated book a very valuable addition to their collection.

Collective Modes in an Inhomogeneous Electron Gas (Classic Reprint)

Collective Modes in an Inhomogeneous Electron Gas (Classic Reprint) PDF

Author: Joyce Newman

Publisher:

Published: 2015-08-04

Total Pages: 174

ISBN-13: 9781332114245

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Excerpt from Collective Modes in an Inhomogeneous Electron Gas VI. The Solution for a Dense Electron Gas in an External Potential - Method I; 1. The Solution Expressed in Terms of a Green's Function; 2. Evaluation of the Green's Function; VII. The Solution for a Dense Electron Gas in an External Potential - Method II; 1. An Approximation for the Modified Interaction for a Slowly Varying External Potential; 2. A Sample Term of the Solution Expressed as a Many Dimensional Integral; 3. A Variational Principle is Introduced to Simplify the Integration; 4. The Sample Term of the Solution is Reduced to a Two Dimensional Integral; 5. The Complete General Solution Expressed as a Two Dimensional Integral; 6. This Method Applied to a Uniform Electron Gas - The Solution for a Uniform Electron Gas Expressed as a Two Dimensional Integral; 7. The Limit of the General Solution when the External Potential Goes to Zero; 8. a. The Remaining Integrations for the Uniform Gas Approximated by the Method of Steepest Descent; b. The Error Introduced by this Approximation About the Publisher Forgotten Books publishes hundreds of thousands of rare and classic books. Find more at www.forgottenbooks.com This book is a reproduction of an important historical work. Forgotten Books uses state-of-the-art technology to digitally reconstruct the work, preserving the original format whilst repairing imperfections present in the aged copy. In rare cases, an imperfection in the original, such as a blemish or missing page, may be replicated in our edition. We do, however, repair the vast majority of imperfections successfully; any imperfections that remain are intentionally left to preserve the state of such historical works.

Turbulent Transport In Magnetized Plasmas (Second Edition)

Turbulent Transport In Magnetized Plasmas (Second Edition) PDF

Author: Horton, Jr C Wendell

Publisher: #N/A

Published: 2017-07-21

Total Pages: 524

ISBN-13: 9813225904

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For a few seconds with large machines, scientists and engineers have now created the fusion power of the stars in the laboratory and at the same time find the rich range of complex turbulent electromagnetic waves that transport the plasma confinement systems. The turbulent transport mechanisms created in the laboratory are explained in detail in the second edition of "Turbulent Transport in Magnetized Plasmas" by Professor Horton. The principles and properties of the major plasma confinement machines are explored with basic physics to the extent currently understood. For the observational laws that are not understood — the empirical confinement laws — offering challenges to the next generation of plasma students and researchers — are explained in detail. An example, is the confinement regime — called the "I–mode" — currently a hot topic — is explored. Numerous important problems and puzzles for the next generation of plasma scientists are explained. There is growing demand for new simulation codes utilizing the massively parallel computers with MPI and GPU methods. When the 20 billion dollar ITER machine is tested in the 2020ies, new theories and faster/smarter computer simulations running in near real-time control systems will be used to control the burning hydrogen plasmas.

Plasma and Fluid Turbulence

Plasma and Fluid Turbulence PDF

Author: A. Yoshizawa

Publisher: CRC Press

Published: 2002-11-12

Total Pages: 459

ISBN-13: 1420033697

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Theory and modelling with direct numerical simulation and experimental observations are indispensable in the understanding of the evolution of nature, in this case the theory and modelling of plasma and fluid turbulence. Plasma and Fluid Turbulence: Theory and Modelling explains modelling methodologies in depth with regard to turbulence phenomena a

Reaction-Diffusion Problems in the Physics of Hot Plasmas

Reaction-Diffusion Problems in the Physics of Hot Plasmas PDF

Author: H Wilhelmsson

Publisher: CRC Press

Published: 2000-01-01

Total Pages: 170

ISBN-13: 1420033581

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The physics of hot plasmas is of great importance for describing many phenomena in the universe and is fundamental for the prospect of future fusion energy production on Earth. Nontrivial results of nonlinear electromagnetic effects in plasmas include the self-organization and self-formation in the plasma of structures compact in time and space. Th

Non-Linear Instabilities in Plasmas and Hydrodynamics

Non-Linear Instabilities in Plasmas and Hydrodynamics PDF

Author: V.N Oraevsky

Publisher: Routledge

Published: 2017-11-22

Total Pages: 180

ISBN-13: 1351428217

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For the first time in a single book, Non-Linear Instabilities in Plasmas and Hydrodynamics presents the underlying physics of fast secondary instabilities. This exceptionally well-written, introductory book discusses the basic ideas of the physics of secondary or induced, nonlinear instabilities in wave-sustaining media. The authors, world-renowned experts in the field, have brought together the results of papers scattered throughout the literature to explain subjects as diverse as fluctuation chaos, wave-turbulent instabilities, vortex dynamos, beam-plasma interactions, plasma confinement, and the origins of typhoons in the Earth's atmosphere and magnetic fields in galaxies. Paving the way for new and exciting research in the future, this broad, interdisciplinary book enables a wide range of physicists to apply the concepts discussed to obtain new results in plasma physics, space physics, hydrodynamics, and geophysics.

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