Shock identification and classification in 2D magnetohydrodynamiccompressible turbulence—Orszag–Tang vortex

B. Snow, A. Hillier, G. Murtas, G. Botha
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引用次数: 3

Abstract

Abstract Compressible magnetohydrodynamic (MHD) turbulence is a common feature of astrophysical systems such as the solar atmosphere and interstellar medium. Such systems are rife with shock waves that can redistribute and dissipate energy. For an MHD system, three broad categories of shocks exist (slow, fast, and intermediate); however, the occurrence rates of each shock type are not known for turbulent systems. Here, we present a method for detecting and classifying the full range of MHD shocks applied to the Orszag–Tang vortex. Our results show that the system is dominated by fast and slow shocks, with far less-frequent intermediate shocks appearing most readily near magnetic reconnection sites. We present a potential mechanism that could lead to the formation of intermediate shocks in MHD systems, and study the coherency and abundances of shocks in compressible MHD turbulence.
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二维磁流体动力可压缩湍流- orszag - tang涡的激波识别与分类
摘要可压缩磁流体动力学(MHD)湍流是太阳大气和星际介质等天体物理系统的共同特征。这样的系统充满了可以重新分配和耗散能量的冲击波。对于MHD系统,存在三大类冲击(慢、快、中);然而,对于湍流系统,每种激波类型的发生率尚不清楚。在这里,我们提出了一种检测和分类应用于Orszag-Tang涡旋的全范围MHD冲击的方法。我们的研究结果表明,该系统主要由快速和缓慢的冲击所主导,而频率较低的中间冲击最容易出现在磁重联位置附近。我们提出了一种可能导致MHD系统中中间激波形成的机制,并研究了可压缩MHD湍流中激波的相干性和丰度。
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