The physics of laser plasma interactions
Addison-Wesley, 21 янв. 1988 г. - Всего страниц: 182
Based on a graduate course in plasma physics taught at University of California, Davis, this new book provides a concise overview and a physically-motivated treatment of the major plasma processes which determine the interaction of intense light waves with plasmas. It also includes a discussion of basic plasma concepts, plasma simulation using particle codes, and laser plasma experiments. This is the most elementary book currently available that successfully blends theory, simulation, and experiment and presents a clear exposition of the major physical processes involved in laser-plasma interactions. This is also the first book on the topic by anyone involved in the United States Laser Fusion Program. Dr. Kruer has more than 15 years of active participation in this field.
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Basic Concepts and TwoFluid Description of Plasmas
Computer Simulation of Plasmas
Stimulated Brillouin Scattering
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backscatter Brillouin scattering collision frequency collisional absorption collisional damping compute consider coupling critical density Debye length decay density gradient derive discussed in Chapter dispersion relation distribution function electric field electromagnetic waves electron density electron plasma frequency electron plasma wave electron temperature energy experiments filamentation Fluids flux force equation gives growth rate heat flow heated electron Hence high frequency incident light wave inhomogeneous plasma ion acoustic wave ion density fluctuation ion wave irradiated Landau damping laser fusion laser light laser-irradiated Lett light wave magnetic fields neglect nonlinear Note obliquely incident obtain oscillation Parametric instabilities particle code phase velocity Phys plasma density plasma frequency Plasma Physics Poisson's equation ponderomotive force pulse pump field Raman instability Raman scattering resonance absorption scale length scattered light wave sidescatter simulation solution spatial targets Theory turbulence u;pe underdense plasma Vlasov equation W. L. Kruer wave number wave propagation wavelength waves in plasmas