C

IF 0.2 2区 文学 0 LITERATURE, AMERICAN
Andrey Beresnyak, Hao-Wei Xu, Hui Li, R. Schlickeiser
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引用次数: 0

Abstract

Perpendicular diffusion coefficients and mean free paths of cosmic particles are computed for an anisotropic Alfvénic turbulence spectrum corresponding to the Goldreich–Sridhar model by employing an enhanced nonlinear guiding center theory. The calculations are important for understanding cosmic ray propagation in the Galaxy and in the solar system. In addition, the knowledge of diffusion coefficients is also useful for modeling charged particles which experience diffusive shock acceleration in supernova remnants and at interplanetary shock waves. To replace the parallel diffusion coefficient in our equation for the perpendicular diffusion coefficient, we employ different models such as quasilinear results and phenomenological models. The results are compared with those derived earlier. We demonstrate that the choice of the turbulence model as well as the choice of the model for the parallel diffusion coefficient has a strong influence on the perpendicular diffusion coefficient.
C
采用改进的非线性导向中心理论,计算了与golddreich - sridhar模型相对应的各向异性alfv湍流谱的垂直扩散系数和宇宙粒子的平均自由程。这些计算对于理解宇宙射线在银河系和太阳系中的传播非常重要。此外,扩散系数的知识也有助于模拟在超新星遗迹和行星际激波中经历扩散激波加速度的带电粒子。为了将方程中的平行扩散系数替换为垂直扩散系数,我们采用了拟线性结果和现象学模型等不同的模型。将所得结果与先前的结果进行了比较。我们证明了湍流模型的选择以及平行扩散系数模型的选择对垂直扩散系数有很强的影响。
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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来源期刊
CiteScore
0.40
自引率
50.00%
发文量
8
期刊介绍: The Emily Dickinson Journal (EDJ) showcases the poet at the center of current critical practices and perspectives. EDJ features writing by talented young scholars as well as work by those established in the field. Contributors explore the many ways in which Dickinson illuminates and challenges. No other journal provides this quality or quantity of scholarship on Dickinson. The Emily Dickinson Journal is sponsored by the Emily Dickinson International Society (EDIS).
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