Identification and characterization of current sheets in collisionless plasmas turbulence

Amirhassan Chatraee Azizabadi
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引用次数: 1

Abstract

The properties of current sheets forming in a ion-kinetically turbulent collisionless plasma are investigated by utilizing the results of two-dimensional hybrid-kinetic numerical simulations. For this sake the algorithm proposed by Zhdankin et al. (2013) for the analysis of current sheets forming in MHD-turbulent plasmas, was extended to analyse the role and propertes of current sheets formating in a much noisier kinetically turbulent plasma. The applicability of this approach to the analysis of kinetically-turbulent plasmas is verified. Invesigated are, e.g., the effects of the choice of parameters on the current sheet recognition, viz. the threshold current density, the minimum current density and of the local regions around current density peaks. The main current sheet properties are derived, their peak current density, the peak current carrier velocity (mainly electrons), the thickness and length of the current sheets, i.e. also their aspect ratio (length/thickness). By varying the grid resolution of the simulations it is shown that, as long as the electron inertia is not taken into account, the current sheets thin down well below ion inertial length scale until numerical (grid-resolution based) dissipation stops any the further thinning.
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无碰撞等离子体湍流中电流片的识别和表征
利用二维混合动力学数值模拟的结果,研究了离子动力学湍流无碰撞等离子体中电流片形成的特性。为此,将Zhdankin等人(2013)提出的用于分析mhd湍流等离子体中电流片形成的算法扩展到分析在更嘈杂的动力学湍流等离子体中形成电流片的作用和性质。验证了该方法对动力学湍流等离子体分析的适用性。研究了参数的选择对电流片识别的影响,即阈值电流密度、最小电流密度和电流密度峰值附近的局部区域。推导出了电流片的主要特性,它们的峰值电流密度,峰值电流载流子速度(主要是电子),电流片的厚度和长度,即它们的宽高比(长度/厚度)。通过改变模拟的网格分辨率表明,只要不考虑电子惯性,电流片就会减薄到远低于离子惯性长度尺度,直到数值耗散(基于网格分辨率)阻止任何进一步减薄。
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