Oblique electron fire hose instability: Particle-in-cell simulations

Hellinger Petr; Travnicek Pavel M.; Decyk Victor K.Schriver David

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Oblique electron fire hose instability: Particle-in-cell simulations

机译：Oblique electron fire hose instability: Particle-in-cell simulations

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Nonlinear properties of the oblique resonant electron fire hose instability are investigated using two-dimensional particle-in-cell simulations in the Darwin approximation for weak initial growth rates. The weak electron fire hose instability has a self-destructive nonlinear behavior; it destabilizes a nonpropagating branch which only exists for a sufficiently strong temperature anisotropy. The nonlinear evolution leads to generation of nonpropagating waves which in turn scatter electrons and reduce their temperature anisotropy. As the temperature anisotropy is being reduced, the nonpropagating branch disappears and the generated standing waves are transformed to propagating whistler waves which are rapidly damped. Consequently, the oblique electron fire hose efficiently reduces the electron temperature anisotropy.

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来源
《Journal of geophysical research》 |2014年第1期|59-68|共10页
作者
Hellinger Petr; Travnicek Pavel M.; Decyk Victor K.Schriver David;
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作者单位

ASCR;

ASCR;

Univ Calif BerkeleyUniv Calif Los AngelesUniv Calif Los Angeles;

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原文格式 PDF
正文语种英语
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关键词
electron temperature anisotropy; fire hose instability; SOLAR-WIND; COULOMB COLLISIONS; DISTRIBUTIONS; EXPANSION;

Oblique electron fire hose instability: Particle-in-cell simulations

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