Simulation of Thermal Nonequilibrium Cycles in the Solar Wind

Roger B. Scott, Jeffrey W. Reep, Mark G. Linton and Stephen J. Bradshaw
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Abstract

Thermal nonequilibrium (TNE) is a condition of the plasma in the solar corona in which the local rate of energy loss due to radiation increases to the point that it cannot be sustained by the various heating terms acting on the plasma, precluding the existence of a steady state. The limit cycles of precipitation and evaporation that result from TNE have been simulated in 1D models of coronal loops, as well as 2D and 3D models of the solar chromosphere and lower corona. However, a careful study of TNE in the solar wind has not been performed until now. Here, we demonstrate that for suitable combinations of local and global heating rates, it is possible for the plasma to exhibit a TNE condition, even in the context of a transonic solar wind with appreciable mass and energy fluxes. This implies limits on the amount of footpoint heating that can be withstood under steady-state conditions in the solar wind, and may help to explain the variability of solar wind streams that emanate from regions of highly concentrated magnetic flux on the solar surface. The implications of this finding pertain to various sources of high-density solar wind, including plumes that form above regions of mixed magnetic polarity in polar coronal holes and the slow solar wind that emanates from coronal hole boundaries.
模拟太阳风中的热非平衡循环
热非平衡态(TNE)是日冕等离子体的一种状态,在这种状态下,辐射导致的局部能量损失率增加,以至于等离子体上的各种加热项无法维持这种能量损失率,从而排除了稳定状态的存在。日冕环的一维模型以及太阳色球层和日冕下部的二维和三维模型都模拟了 TNE 导致的降水和蒸发极限循环。然而,到目前为止,还没有对太阳风中的 TNE 进行过仔细研究。在这里,我们证明了在局部和全局加热率的适当组合下,等离子体有可能表现出 TNE 状况,即使在具有可观质量和能量通量的跨声速太阳风中也是如此。这意味着太阳风在稳态条件下所能承受的脚点加热量是有限的,并可能有助于解释太阳风流的变化,这些太阳风流来自太阳表面高度集中的磁通量区域。这一发现的影响涉及高密度太阳风的各种来源,包括在极地日冕洞混合磁极性区域上方形成的羽流和从日冕洞边界喷发的慢太阳风。
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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