English

Cosmic Ray Perpendicular Superdiffusion and Parallel Mirror Diffusion in a Partially Ionized and Turbulent Medium

Astrophysics of Galaxies 2025-10-09 v2

Abstract

Understanding cosmic ray (CR) diffusion in a partially ionized medium is both crucial and challenging. In this study, we investigate CR perpendicular superdiffusion and parallel transport in turbulent, partially ionized media using high-resolution 3D two-fluid simulations that treat ions and neutrals separately. We examine the influence of neutral-ion decoupling and the associated damping of turbulence on CR propagation in both transonic and supersonic conditions. Our simulations demonstrate that neutral-ion decoupling significantly damps velocity and magnetic field fluctuations at small scales, producing spectral slopes steeper than those of Kolmogorov and Burgers scaling. In supersonic turbulence, large-scale shock motion is not subject to damping and generates small-scale density enhancements. Moreover, the damping of magnetic field fluctuations substantially decreases pitch-angle scattering, which, however, only slightly affects the CR parallel mean free path λ\lambda_\|, due to the nonresonant mirror interactions of CRs. In the direction perpendicular to the mean magnetic field, we identify two regimes of the perpendicular superdiffusion of CRs: a diffusive regime (λ<Linj\lambda_\|<L_{\rm inj}, where LinjL_{\rm inj} is turbulence injection scale) with perpendicular separation of CR proportional to t3/4t^{3/4}, and a ballistic-like regime (λ>Linj\lambda_\|>L_{\rm inj}), with perpendicular separation scaling as t3/2t^{3/2}. At initially large pitch angles, the effects of magnetic mirroring-naturally arising in magnetohydrodynamic turbulence-become significant, enhancing the confinement of CRs and resulting in λ<Linj\lambda_\|<L_{\rm inj}, despite the damping effect. These results imply that large-pitch-angle CRs can be well confined in the cold ISM, such as molecular clouds.

Keywords

Cite

@article{arxiv.2505.07421,
  title  = {Cosmic Ray Perpendicular Superdiffusion and Parallel Mirror Diffusion in a Partially Ionized and Turbulent Medium},
  author = {Yue Hu and Siyao Xu and Alex Lazarian and James M. Stone and Philip F. Hopkins},
  journal= {arXiv preprint arXiv:2505.07421},
  year   = {2025}
}

Comments

17 pages, 9 figures, accepted for publication in ApJ

R2 v1 2026-06-28T23:29:21.639Z