Electron kinetic effects in the nonlinear evolution of a driven ion-acoustic wave
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Riconda, C
Heron, A
Pesme, D
Detering, Frank
Huller, S
Tikhonchuk, Vladimir T
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American Physical Society
Abstract
The electron kinetic effects are shown to play an important role in the nonlinear evolution of a driven ion-acoustic wave. The numerical simulation results obtained (i) with a hybrid code, in which the electrons behave as a fluid and the ions are described along the particle-in-cell (PIC) method, are compared with those obtained (ii) with a full-PIC code, in which the kinetic effects on both species are retained. The electron kinetic effects interplay with the usual fluid-type nonlinearity to give rise to a broadband spectrum of ion-acoustic waves saturated at a low level, even in the case of a strong excitation. This low asymptotic level might solve the long-standing problem of the small stimulated Brillouin scattering reflectivity observed in laser-plasma interaction experiments.
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Physical Review Letters 94.5 (2005): 055003/1-4
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Physical Review Letters
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