http://arxiv.org/abs/2305.02890
Galactic cosmic ray transport relies on the existence of turbulence on scales comparable with the gyration radius of the particles and with wavenumber vector oriented along the local magnetic field. In the standard picture, in which turbulence is injected at large scales and cascades down to smaller scales, it is all but guaranteed that turbulence on the relevant scales may be present, either because of anisotropic cascading or because of the onset of damping processes. This raises questions on the nature of cosmic-ray scattering, especially at energies $\gtrsim 1$ TeV, where self-generation is hardly relevant. Here, by means of numerical simulations of charged test-particles in a prescribed magnetic field, we investigate particle diffusion in a situation in which turbulence is mainly present at large scales, with the possible presence of a smaller power on small scales, and discuss possible implications of this setup for cosmic-ray transport phenomenology.
O. Pezzi and P. Blasi
Fri, 5 May 23
23/67
Comments: 5 pages, submitted to MNRAS Letters