Particle acceleration linked to Alfvén wave propagation on small scale density gradients

Physics and Chemistry of the Earth, Part C: Solar, Terrestrial & Planetary Science Pub Date : 2001-01-01 DOI:10.1016/S1464-1917(00)00111-2

V. Génot , F. Mottez , P. Louarn

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引用次数: 14

Abstract

We study how Alfvén waves propagate in the presence of sharp density gradients in the direction perpendicular to the ambient magnetic field. A fully electromagnetic electron guiding centre code is used for the simulation. During the propagation, initially parallel (k_∥ = 0), transverse scales of the order of c/ω_pe are quickly reached which contributes to the creation of a significant parallel component of the electric field in the region of density inhomogeneity. The effects of this field on the velocity distribution functions are then discussed. In particular, we show that they can present a strong deviation from their initial Gaussian shape (global shift in energy) due to the action of the parallel electric field. Evidences are then given for a net energy gain of the electrons, to the expense of the wave, during this process. This energy transfer mechanism may be relevant in order to explain the particle acceleration in the auroral plasma cavities.

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粒子加速与小尺度密度梯度上的alfvsamn波传播有关

我们研究了在垂直于环境磁场的方向上存在尖锐密度梯度的情况下alfvsamn波是如何传播的。采用全电磁电子引导中心代码进行仿真。在传播过程中，最初平行(k∥= 0)，迅速达到c/ωpe数量级的横向尺度，这有助于在密度非均匀性区域产生显著的平行电场分量。讨论了该场对速度分布函数的影响。特别是，我们表明，由于平行电场的作用，它们可以呈现出与初始高斯形状(能量的全局位移)的强烈偏差。在此过程中，以波的损失为代价，给出了电子的净能量增益的证据。这种能量传递机制可能与解释极光等离子体腔中的粒子加速有关。

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