On the Classical Approach to Describing the Diffusion of Cosmic Rays in a Turbulent Medium

IF 0.3 4区 物理与天体物理 Q4 PHYSICS, NUCLEAR
V. V. Uchaikin, I. I. Kozhemyakin, V. A. Litvinov
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引用次数: 0

Abstract

The inhomogeneous structure of the interstellar medium (ISM) is characterized by large-scale fluctuations that significantly affect the cosmic ray propagation process. Accounting for this influence can only lead to adjustments in the diffusion process parameters but even to pass from differential operators to integral ones. The most crucial characteristics of a turbulent medium is its power spectrum. Including appropriate approximations of this spectrum allows considering this problem in the framework of the traditional diffusion approach [1, 2]. This article explores the analytical representations of this spectrum applied in the cosmic ray transfer theory, including the four-parameter Uchaikin–Zolotarev approximation, derived from the generalized Ornstein–Zernike equation. Testing of the latter revealed that, with carefully chosen parameters, it accurately replicates numerical modeling results both in the inertial interval and beyond. Therefore, it can be effectively employed in addressing cosmic ray transfer issues within a turbulent interstellar medium.

Abstract Image

Abstract Image

论描述宇宙射线在湍流介质中扩散的经典方法
摘要星际介质(ISM)的不均匀结构具有大尺度波动的特点,这对宇宙射线的传播过程产生了重大影响。考虑到这种影响,只能调整扩散过程参数,甚至从微分算子转为积分算子。湍流介质最关键的特征是其功率谱。将该频谱的适当近似值纳入传统的扩散方法[1, 2]框架内,就可以考虑这个问题。本文探讨了宇宙射线传输理论中应用的该频谱的分析表示,包括从广义奥恩斯坦-泽尔尼克方程导出的四参数乌恰金-佐洛塔列夫近似。对后者的测试表明,在精心选择参数的情况下,它能准确地复制惯性区间内外的数值建模结果。因此,它可以有效地用于解决湍流星际介质中的宇宙射线转移问题。
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来源期刊
Physics of Atomic Nuclei
Physics of Atomic Nuclei 物理-物理:核物理
CiteScore
0.60
自引率
25.00%
发文量
56
审稿时长
3-6 weeks
期刊介绍: Physics of Atomic Nuclei is a journal that covers experimental and theoretical studies of nuclear physics: nuclear structure, spectra, and properties; radiation, fission, and nuclear reactions induced by photons, leptons, hadrons, and nuclei; fundamental interactions and symmetries; hadrons (with light, strange, charm, and bottom quarks); particle collisions at high and superhigh energies; gauge and unified quantum field theories, quark models, supersymmetry and supergravity, astrophysics and cosmology.
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