Dark matter halos in the multicomponent model. I. Substructure
Abstract
Multicomponent dark matter with self-interactions, which allows for inter-conversions of species into one another, is a promising paradigm that is known to successfully and simultaneously resolve major problems of the conventional CDM cosmology at galactic and sub-galactic scales. In this paper, we present -body simulations of the simplest two-component (2cDM) model aimed at studying the distribution of dark matter halos with masses . In particular, we investigate how the maximum circular velocity function of the halos is affected by the velocity dependence of the self-interaction cross-sections, , and compare them with available observational data. The results demonstrate that the 2cDM paradigm with the range of self-interaction cross-section per particle mass (evaluated at km s) of cmg and the mass degeneracy is robustly resolving the substructure and too-big-to-fail problems by suppressing the substructure having small maximum circular velocities, km s. We also discuss the disagreement between the radial distribution of dwarfs in a host halo observed in the Local Group and simulated with CDM. This can be considered as one more small-scale problem of CDM. We demonstrate that such a disagreement is alleviated in 2cDM. Finally, the computed matter power-spectra of the 2cDM structure indicate the model's consistency with the existing Ly- forest constraints.
Cite
@article{arxiv.1711.11078,
title = {Dark matter halos in the multicomponent model. I. Substructure},
author = {Keita Todoroki and Mikhail V. Medvedev},
journal= {arXiv preprint arXiv:1711.11078},
year = {2018}
}
Comments
21 pages, 14 figures