Since the publication of the original volumes in 1983 and 1984 a demand has arisen for a compact version of the Handbook suitable for graduate students. The editors have therefore made a selection of chapters based on the educational needs of graduate students embarking on a study of plasma physics.
Most of the chapters are devoted to the theory of small amplitude perturbations which is the most well developed aspect of the subject. The remaining ones are concerned with weak nonlinear waves, and collapse and self-focusing of Langmuir waves, two topics of widespread interest and application. Finally an important chapter on particle simulation has been included, as that numerical technique plays an essential role in the development an understanding of plasma physics.
The unabridged author and subject index have been specially adapted for this edition and provide an opening to literature and terminology of yet unrivalled breadth.
Since the publication of the original volumes in 1983 and 1984 a demand has arisen for a compact version of the Handbook suitable for graduate students. The editors have therefore made a selection of chapters based on the educational needs of graduate students embarking on a study of plasma physics.
Most of the chapters are devoted to the theory of small amplitude perturbations which is the most well developed aspect of the subject. The remaining ones are concerned with weak nonlinear waves, and collapse and self-focusing of Langmuir waves, two topics of widespread interest and application. Finally an important chapter on particle simulation has been included, as that numerical technique plays an essential role in the development an understanding of plasma physics.
The unabridged author and subject index have been specially adapted for this edition and provide an opening to literature and terminology of yet unrivalled breadth.
Rezensionen / Stimmen
Those actively involved in research on plasma physics will find these volumes invaluable, as will experienced workers in other fields wishing to acquaint themselves with a particular aspect of the subject.
Nature
Those actively involved in research on plasma physics will find these volumes invaluable, as will experienced workers in other fields wishing to acquaint themselves with a particular aspect of the subject.
Nature
Reihe
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science & Technology
Zielgruppe
Für höhere Schule und Studium
Für Beruf und Forschung
Gewicht
ISBN-13
978-0-444-88020-8 (9780444880208)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Klassifikation
Preface. MHD description of plasma (R.M. Kulsrud). Linear wave propagation in ideal magnetohydrodynamics (H. Weitzner). Kinetic theory of waves (V.N. Oraevsky). Theory of fluctuations in plasma (C.R. Oberman and E.A. Williams). Propagation and mode-conversion for waves in nonuniform plasmas (T.H. Stix and D.G. Swanson). The variational principle for problems of ideal magnetohydrodynamic stability (I.B. Bernstein). Kinetic waves and instabilities in a uniform plasma (R.C. Davidson). Instabilities in inhomogeneous plasma (A.B. Mikhailovsky). Resistive instabilities and field line reconnection (R.B. White). Wave-particle and wave-wave interaction (A.A. Galeev and R.Z. Sagdeev). Collapse and self-focusing of Langmuir waves (V.E. Zakharov). Particle simulation (J.M. Dawson and A.T. Lin). Author index. Subject index.
