动能阿尔芬波和极光粒子加速:综述。

Reviews of modern plasma physics Pub Date : 2023-01-01 Epub Date: 2023-01-07 DOI:10.1007/s41614-022-00111-2
R L Lysak
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引用次数: 0

摘要

剪切模式阿尔弗文波是地球和其他行星极光区场对齐电流的载体。这些波沿着磁场线传播,将外部磁层与电离层耦合在一起。然而,在理想的磁流体力学(MHD)理论中,剪切模式阿尔弗文波并不携带可加速极光粒子的平行电场。这可以通过加入动力学效应来改变,当垂直波长与电子惯性长度或离子声学回旋半径相当时,就会产生平行电场。这些小的垂直波长可能是由相位混合、电离层反馈或非线性效应形成的。动能阿尔芬波因与电离层的相互作用而受到进一步限制,电离层是这些波的反射器。此外,顶部电离层的强等离子体梯度形成了一个有效的共振器,导致以秒为时间尺度的波动。这些快速变化的平行电场可导致极光电子的宽带加速,通常被称为阿尔弗韦尼克极光。这种相互作用不仅发生在地球的磁层中,朱诺卫星也在木星的磁层中观测到了这种现象。
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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Kinetic Alfvén waves and auroral particle acceleration: a review.

Shear mode Alfvén waves are the carriers of field-aligned currents in the auroral zones of Earth and other planets. These waves travel along the magnetic field lines, coupling the outer magnetosphere with the ionosphere. However, in ideal magnetohydrodynamic (MHD) theory, the shear mode Alfvén wave does not carry a parallel electric field that could accelerate auroral particles. This can be modified by including kinetic effects, which lead to a parallel electric field when the perpendicular wavelength becomes comparable to the electron inertial length or the ion acoustic gyroradius. These small perpendicular wavelengths can be formed by phase mixing, ionospheric feedback, or nonlinear effects. Kinetic Alfvén waves are further constrained by their interaction with the ionosphere, which acts as a reflector for these waves. In addition, the strong plasma gradients in the topside ionosphere form an effective resonator that leads to fluctuations on time scales of seconds. These rapidly changing parallel electric fields can lead to broadband acceleration of auroral electrons, often called the Alfvénic aurora. Such interactions do not only take place in Earth's magnetosphere, but have also been observed in Jupiter's magnetosphere by the Juno satellite.

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