磁流体动力学湍流和宇宙射线的传播:理论与观测的对抗

H. Yan
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引用次数: 0

摘要

宇宙射线的传播是由星际湍流的特性决定的。星际介质的多相特性和驱动机制的多样性导致了星际介质湍流特性的空间变异。与此同时,精确的天体粒子实验对宇宙射线均匀和各向同性输运的传统图景提出了挑战。当粒子输运和星际湍流相互冲突时,我们正在为CR传播研究打开一个新的视野。在这里,我们回顾了我们对磁流体动力学(MHD)湍流及其与控制宇宙射线传播的基本过程,粒子输运的不同制度的联系的理解的最新进展,这些进展随着多波长观测的观测发现和分析而得到增强。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magnetohydrodynamic turbulence and propagation of cosmic rays: theory confronted with observations
Cosmic ray propagation is determined by the properties of interstellar turbulence. The multiphase nature of interstellar medium (ISM) and diversity of driving mechanisms give rise to spatial variation of turbulence properties. Meanwhile, precision astroparticle experiments pose challenges to the conventional picture of homogeneous and isotropic transport of cosmic rays (CRs). We are opening a new horizon for CR propagation research when studies of particle transport and interstellar turbulence confront each other. Here we review our recent developement on understandings of magnetohydrodynamic (MHD) turbulence and its connection to the fundamental processes governing cosmic ray propagation, different regimes of particle transport, that are augmented with observational discovery and analysis from multi-wavelength observations.
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