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The Kinetic Theory of a Dilute Ionized Plasma [electronic resource] / by Leopoldo S. Garcȡa-Colȡn, Leonardo Dagdug.

Por:

Garcȡa-Colȡn, Leopoldo S [author.]

Colaborador(es):

Dagdug, Leonardo [author.]

Tipo de material: Texto

TextoSeries Springer Series on Atomic, Optical, and Plasma Physics ; 53 | Springer Series on Atomic, Optical, and Plasma Physics ; 53Editor: Dordrecht : Springer Netherlands, 2009Descripción: VIII, 166 p. online resourceTipo de contenido:

text

Tipo de medio:

computer

Tipo de soporte:

online resource

ISBN:

9781402093302

Trabajos contenidos:

SpringerLink (Online service)

Tema(s): Formatos físicos adicionales: Sin títuloClasificación CDD:

539 23

Clasificación LoC:

Libro electrónico

Recursos en línea:

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Contenidos:

Springer eBooksResumen: This book results from recent studies aimed at answering questions raised by astrophycists who use values of transport coefficients that are old and often unsatisfactory. The few books dealing with the rigorous kinetic theory of a ionized plasma are based on the so called Landau (Fokker-Planck) equation and they seldom relate the microscopic results with their macroscopic counterpart provided by classical non-equilibrium thermodynamics. In this book both issues are thoroughly covered. Starting from the full Boltzmann equation for inert dilute plasmas and using the Hilbert-Chapman-Enskog method to solve the first two approximations in Knudsenós parameter, we construct all the transport properties of the system within the framework of linear irreversible thermodynamics. This includes a systematic study of all possible cross effects (which, except for a few cases, were never treated in the literature) as well as the famous H-theorem. The equations of magneto-hydrodynamics for dilute plasmas, including the rather surprising results obtained for the viscomagnetic effects, may be now fully assessed. This book will be of immediate interest to the plasma physics community, as well as to astrophysicists. It is also likely to make an impact in the field of cold plasmas, involving laser cooled Rydberg atoms.

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1 Non-equilibrium Thermodynamics -- 2 The Problem. 2.1 Conservation Equations. 2.2 The H Theorem and Local Equilibrium -- 3 Solution of the Boltzmann Equation -- 4 Calculation of the Currents. 4.1 Diffusion Effects. 4.2 Flow of Heat -- 5 Solution of the Integral Equations -- 6 The Transport Coefficients -- 7 Discussion of the Results -- 8 Viscomagnetism. 8.1 The Integral Equation. 8.2 The Stress Tensor. 8.3 The Integral Equation. 8.4 Comparison with Thermodynamics -- 9 Magnetohydrodynamics -- A Calculation of M. B Linearized Boltzmann Collision Kernels. C The case when = 0. D The collision integrals. E Calculation of the coefficients. F Appendix F. G Appendix G. H Appendix H. I List of Marshall s equations and notation. I.1 Equations. I.2 Notation.

This book results from recent studies aimed at answering questions raised by astrophycists who use values of transport coefficients that are old and often unsatisfactory. The few books dealing with the rigorous kinetic theory of a ionized plasma are based on the so called Landau (Fokker-Planck) equation and they seldom relate the microscopic results with their macroscopic counterpart provided by classical non-equilibrium thermodynamics. In this book both issues are thoroughly covered. Starting from the full Boltzmann equation for inert dilute plasmas and using the Hilbert-Chapman-Enskog method to solve the first two approximations in Knudsenós parameter, we construct all the transport properties of the system within the framework of linear irreversible thermodynamics. This includes a systematic study of all possible cross effects (which, except for a few cases, were never treated in the literature) as well as the famous H-theorem. The equations of magneto-hydrodynamics for dilute plasmas, including the rather surprising results obtained for the viscomagnetic effects, may be now fully assessed. This book will be of immediate interest to the plasma physics community, as well as to astrophysicists. It is also likely to make an impact in the field of cold plasmas, involving laser cooled Rydberg atoms.

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