Dark matter halos in the multicomponent model. II. Density profiles of galactic halos

Abstract

The multicomponent dark matter model with self-scattering and inter-conversions of species into one another is an alternative dark matter paradigm that is capable of resolving the long-standing problems of cosmology at small scales. In this paper, we have studied in detail the properties of dark matter halos with M 4-5 ×1011 M obtained in N-body cosmological simulations with the simplest two-component (2cDM) model. A large set of velocity-dependent cross-section prescriptions for elastic scattering and mass conversions, σs(v) vas and σc(v) vac, has been explored and the results were compared with observational data. The results demonstrate that self-interactions with the cross-section per particle mass evaluated at v=100 km s-1 being in the range of 0.01 σ0/m 1 cm2g-1 robustly suppress central cusps, thus resolving the core-cusp problem. The core radii are controlled by the values of σ0/m and the DM cross-section's velocity-dependent power-law indices (as,ac), but are largely insensitive to the species' mass degeneracy. These values are in full agreement with those resolving the substructure and too-big-to-fail problems. We have also studied the evolution of halos in the 2cDM model with cosmic time.