Basic Plasma Physics: v. 2
Published in August 1984
Book
Hardback
864 pages
978-0-444-86645-5 (ISBN)
Description
Volume 2 of the Handbook of Plasma Physics is devoted largely to situations where the nonlinear interaction is so strong that the assumptions of weak turbulence are violated. In particular the following aspects are covered: - a review of a group of theories that invoke a renormalization procedure; - parametric instabilities driven by external pump fields; - the strong interaction between Langmuir waves and ion fluctuations which leads to the formation of solitons and their subsequent collapse; - anomalous plasma resistivity caused by current driven instabilities; - collective interaction of intense beams of charged particles in a plasma and, - the relaxation of plasma with anisotropic velocity distribution.
Volume 2 of the Handbook of Plasma Physics is devoted largely to situations where the nonlinear interaction is so strong that the assumptions of weak turbulence are violated. In particular the following aspects are covered: - a review of a group of theories that invoke a renormalization procedure; - parametric instabilities driven by external pump fields; - the strong interaction between Langmuir waves and ion fluctuations which leads to the formation of solitons and their subsequent collapse; - anomalous plasma resistivity caused by current driven instabilities; - collective interaction of intense beams of charged particles in a plasma and, - the relaxation of plasma with anisotropic velocity distribution.
Volume 2 of the Handbook of Plasma Physics is devoted largely to situations where the nonlinear interaction is so strong that the assumptions of weak turbulence are violated. In particular the following aspects are covered: - a review of a group of theories that invoke a renormalization procedure; - parametric instabilities driven by external pump fields; - the strong interaction between Langmuir waves and ion fluctuations which leads to the formation of solitons and their subsequent collapse; - anomalous plasma resistivity caused by current driven instabilities; - collective interaction of intense beams of charged particles in a plasma and, - the relaxation of plasma with anisotropic velocity distribution.
More details
Series
Language
English
Place of publication
Oxford
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
College/higher education
Professional and scholarly
Dimensions
Height: 240 mm
Width: 160 mm
ISBN-13
978-0-444-86645-5 (9780444866455)
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Schweitzer Classification
Content
Preface. Part 5. Nonlinear Phenomena and Plasma Turbulence . Kolmogorov spectra in weak turbulence problems (V.E. Zakharov). Parametric instabilities in magnetoactive plasmas (V.N. Oraevsky). Collapse and self-focusing of Langmuir waves (V.E. Zakharov). Strong turbulence of plasma oscillations (V.D. Shapiro and V.I. Shevchenko). Statistical descriptions and plasma physics (J.A. Krommes). Part 6. Collective Dissipation and Transport. Current instabilities and anomalous resistivity of plasma (A.A. Galeev and R.Z. Sagdeev). Spontaneous reconnection of magnetic field lines in a collisionless plasma (A.A. Galeev). Collective beam-plasma interaction (R.N. Sudan). Drift wave turbulence and anomalous transport (W. Horton). Parametric instabilities and wave dissipation in plasmas (K. Mima and K. Nishikawa). Relaxation of a plasma with anisotropic velocity distribution (V. Yu. Trakhtengerts). Part 7. Numerical Methods. Particle simulation (J.M. Dawson and A.T. Lin). Part 8. Plasma Diagnostics and Beams. Methods of diagnostics based on the interaction of electromagnetic radiation with a plasma (V.E. Golant). Diagnostic technqiues for magnetically confined high-temperature (R.J. Goldston). Part 9. Miscellaneous. Relativistic electron beam-plasma interaction with intense self-fields (R.C. Davidson). Author index. Subject index.