Basic plasma physics, Volume 1
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.
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Oscillations and Waves
Theory of Weakly Turbulent Plasma
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absolute instability adiabatic Alfven Alfven wave amplitude approximation assumed asymptotic atomic boundary conditions bremsstrahlung calculated charge coefficients collision collisional component considered constant convective convective instability corresponding cross section cyclotron damping defined density derived determined diffusion dispersion relation distribution function effects electric field electrons and ions electrostatic energy equation equilibrium excitation expression finite fluid flux Fokker-Planck equation frequency given gives gradient Green's function Griem group velocity growth rate gyroradius ideal MHD inhomogeneous initial integral interaction ionization kinetic Landau Landau damping Langmuir waves linear magnetic field mode motion nonlinear obtained oscillations parallel parameter perpendicular perturbations phase Phys plane plasma oscillations Plasma Physics problem radiation recombination region resonant particles Rosenbluth satisfied shock singularity solution solved space spatial species stability subsection surface symmetry temperature tensor theory thermal trajectory transport variables vector velocity Vlasov equation wave propagation zero