Exploring the effect of turbulent fluctuations on the onset of reconnection

arXiv - PHYS - Plasma Physics Pub Date : 2024-08-01 DOI:arxiv-2408.00894

Jeffersson Andres Agudelo Rueda, Yi-Hsin Liu, Kai Germaschewski, Michael Hesse, Naoki Bessho

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Abstract

Energy dissipation in collisionless plasmas is one of the most outstanding open questions in plasma physics. Magnetic reconnection and turbulence are two phenomena that can produce the conditions for energy dissipation. These two phenomena are closely related to each other in a wide range of plasmas. Turbulent fluctuations can emerge in critical regions of reconnection events, and magnetic reconnection can occur as a product of the turbulent cascade. In this study, we perform 2D particle-in-cell simulations of a reconnecting Harris current sheet in the presence of turbulent fluctuations to explore the effect of turbulence on the reconnection process in collisionless non-relativistic pair-plasmas. We find that the presence of a turbulent field can affect the onset and evolution of magnetic reconnection. Moreover, we observe the existence of a scale dependent amplitude of magnetic field fluctuations above which these fluctuations are able to disrupt the growing of magnetic islands. These fluctuations provide thermal energy to the particles within the current sheet and preferential perpendicular thermal energy to the background population.

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探索湍流波动对重联开始的影响

无碰撞等离子体中的能量耗散是等离子体物理学中最悬而未决的问题之一。磁重联和湍流这两种现象可以产生能量耗散的条件。湍流波动可能出现在重连接事件的临界区域，而磁重连接可能是湍流级联的产物。在这项研究中，我们对存在湍流波动的再连接哈里斯海流片进行了二维粒子入胞模拟，以探索湍流对无碰撞非相对论对等离子体中再连接过程的影响。我们发现，湍流场的存在会影响磁重联的发生和演化。此外，我们还观察到磁场波动的振幅与尺度有关，超过这个振幅，这些波动就会破坏磁岛的生长。

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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arXiv - PHYS - Plasma Physics

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