Effects of collisions on the generation and suppression of temperature anisotropies and the Weibel instability

K. Schoeffler, L. Silva
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引用次数: 3

Abstract

The expansion of plasma with non-parallel temperature and density gradients, and the generation of magnetic field via the Biermann battery is modeled using particle-in-cell simulations that include collisional effects via Monte Carlo methods. A scaling of the degree of collisionality shows that an anisotropy can be produced, and drive the Weibel instability, for gradient scales shorter than the mean free path. For larger collision rates, the Biermann battery dominates as the cause of magnetic field generation. When the most energetic particles remain collisionless, the Nernst effect causes the Biermann field to be dragged with the heat flux, piled up, and enhanced.
碰撞对温度各向异性的产生和抑制及维贝尔不稳定性的影响
采用蒙特卡罗方法模拟了包括碰撞效应在内的电池内粒子,模拟了具有非平行温度和密度梯度的等离子体膨胀以及通过比尔曼电池产生的磁场。对碰撞程度的尺度分析表明,在小于平均自由程的梯度尺度下,可以产生各向异性,并驱动Weibel不稳定性。对于较大的碰撞率,比尔曼电池作为磁场产生的原因占主导地位。当能量最高的粒子保持无碰撞时,能斯特效应导致比尔曼场被热流拖拽、堆积并增强。
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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