Self-acceleration and energy channeling in the saturation of the ion-sound instability in a bounded plasma

Liang Xu, A. Smolyakov, S. Janhunen, I. Kaganovich
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引用次数: 1

Abstract

A novel regime of the saturation of the Pierce-type ion-sound instability in bounded ion-beam-plasma system is revealed in 1D PIC simulations. It is found that the saturation of the instability is mediated by the oscillating virtual anode potential structure. The periodically oscillating potential barrier separates the incoming beam ions into two groups. One component forms a supersonic beam which is accelerated to an energy exceeding the energy of the initial cold ion beam. The other component is organized as a self-consistent phase space structure of trapped ions with a wide energy spread - the ion hole. The effective temperature (energy spread) of the ions trapped in the hole is lower than the initial beam energy. In the final stage the ion hole expands over the whole system length.
有界等离子体中离子声不稳定性饱和时的自加速和能量通道
在一维PIC模拟中揭示了有界离子束等离子体系统中穿孔型离子声不稳定性的一种新的饱和状态。发现振荡虚阳极电位结构介导了不稳定性的饱和。周期性振荡的势垒将入射的离子束分成两组。一个分量形成超音速光束,加速到超过初始冷离子束的能量。另一个组成部分是由具有广泛能量扩散的捕获离子组成的自洽相空间结构——离子空穴。被困在空穴中的离子的有效温度(能量扩散)低于初始束流能量。在最后阶段,离子空穴扩展到整个系统长度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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