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Main Authors: Zhang, Yiran, Liu, Siming
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.05923
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author Zhang, Yiran
Liu, Siming
author_facet Zhang, Yiran
Liu, Siming
contents Recently, Zhang & Liu (2024) proposed a turbulent convection model for multiscale anisotropies of cosmic rays (CRs), with an assumption of isotropic diffusion such that the anisotropies are statistically isotropic. However, this assumption may be unrealistic for TeV CRs, whose observations have revealed the significance of the local interstellar background magnetic field. To meet the difficulty, the turbulent convection scenario needs to be extended to cover anisotropic diffusion. In this paper, we focus on the parallel diffusion with isotropic pitch-angle scattering, which may be an approximation to the transport process driven by weak hydromagnetic waves in a magnetic flux tube, where fluctuations of the wave velocities lead to the turbulent convection. The consequence is the breaking of the statistical isotropy, while the overall shape of the angular power spectrum, $ \overline{C_\ell}\propto\ell ^{-γ-1} $ ($ \ell\gg 1 $), remains similar to that in the isotropic diffusion model, where $ \ell $ are degrees of spherical harmonics, and $ γ$ is the turbulence spectral index of the convection field. It is then expected that the power-law index of the TeV CR small-scale angular power spectrum can be explained with the Kolmogorov law $ γ=5/3 $, irrespective of the background magnetic field to some extent.
format Preprint
id arxiv_https___arxiv_org_abs_2506_05923
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Convection Anisotropies of Cosmic Rays in Highly Magnetized Plasma
Zhang, Yiran
Liu, Siming
High Energy Astrophysical Phenomena
Recently, Zhang & Liu (2024) proposed a turbulent convection model for multiscale anisotropies of cosmic rays (CRs), with an assumption of isotropic diffusion such that the anisotropies are statistically isotropic. However, this assumption may be unrealistic for TeV CRs, whose observations have revealed the significance of the local interstellar background magnetic field. To meet the difficulty, the turbulent convection scenario needs to be extended to cover anisotropic diffusion. In this paper, we focus on the parallel diffusion with isotropic pitch-angle scattering, which may be an approximation to the transport process driven by weak hydromagnetic waves in a magnetic flux tube, where fluctuations of the wave velocities lead to the turbulent convection. The consequence is the breaking of the statistical isotropy, while the overall shape of the angular power spectrum, $ \overline{C_\ell}\propto\ell ^{-γ-1} $ ($ \ell\gg 1 $), remains similar to that in the isotropic diffusion model, where $ \ell $ are degrees of spherical harmonics, and $ γ$ is the turbulence spectral index of the convection field. It is then expected that the power-law index of the TeV CR small-scale angular power spectrum can be explained with the Kolmogorov law $ γ=5/3 $, irrespective of the background magnetic field to some extent.
title Convection Anisotropies of Cosmic Rays in Highly Magnetized Plasma
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2506.05923