English

Extragalactic cosmic rays diffusing from two populations of sources

High Energy Astrophysical Phenomena 2020-05-27 v2

Abstract

We consider the possibility of explaining the observed spectrum and composition of the cosmic rays with energies above 101710^{17} eV in terms of two different extragalactic populations of sources in the presence of a turbulent intergalactic magnetic field (including also a fading Galactic cosmic-ray component). The populations are considered to be the superposition of different nuclear species having rigidity dependent spectra. The first extragalactic population is dominant in the energy range 101710^{17} to 101810^{18} eV and consists of sources having a relatively large density (>103> 10^{-3} Mpc3^{-3}) and a steep spectrum. The second extragalactic population dominates the cosmic ray flux above few EeV, it has a harder spectral slope and has a high-energy cutoff at few ZZ EeV (where eZeZ is the associated cosmic ray charge). This population has a lower density of sources (<104<10^{-4} Mpc3^{-3}), so that the typical intersource separation is larger than few tens of Mpc, being significantly affected by a magnetic horizon effect that strongly suppresses its flux for energies below Z\sim Z EeV. We discuss how this scenario could be reconciled with the values of the cosmic-ray source spectral indices that are expected to result from the diffusive shock acceleration mechanism.

Keywords

Cite

@article{arxiv.2004.04253,
  title  = {Extragalactic cosmic rays diffusing from two populations of sources},
  author = {Silvia Mollerach and Esteban Roulet},
  journal= {arXiv preprint arXiv:2004.04253},
  year   = {2020}
}

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matches published verson

R2 v1 2026-06-23T14:44:52.192Z