Escalating core formation with dark matter self-heating

TL;DR

This paper investigates how dark matter self-heating from exothermic scatterings leads to core formation in halos, especially smaller ones, revealing a sharp increase in core size with decreasing halo mass, which impacts galaxy observations.

Contribution

First quantitative analysis of dark matter self-heating effects on core formation across a wide halo mass range using gravothermal fluid formalism.

Findings

Core formation sharply increases in smaller halos.

Self-heating DM models can explain core structures but may conflict with observations.

Halo-mass dependence of core formation is a general feature of exothermic DM.

Abstract

Exothermic scatterings of dark matter (DM) produce DM particles with significant kick velocities inside DM halos. In collaboration with DM self-interaction, the excess kinetic energy of the produced DM particles is distributed to the others, which self-heats the DM particles as a whole. The DM self-heating is efficient towards the halo center, and the heat injection is used to enhance the formation of a uniform density core inside halos. The effect of DM self-heating is expected to be more significant in smaller halos for two reasons: 1) the exothermic cross section times the relative velocity, $\left\langle\sigma_{\rm exo}v_{\rm rel}\right\rangle$, is constant; 2) and the ratio of the injected heat to the velocity dispersion squared gets larger towards smaller halos. For the first time, we quantitatively investigate the core formation from DM self-heating for halos in a wide mass range ($10^{9}$-$10^{15}\,{\rm M}_\odot$) using the gravothermal fluid formalism. Notably, we demonstrate that the core formation is sharply escalating towards smaller halos by taking the self-heating DM (i.e., DM that semi-annihilates and self-interacts) as an example. We show that the sharp escalation of core formation may cause a tension in simultaneously explaining the observed central mass deficit of Milky Way satellites, and field dwarf/low surface brightness spiral galaxies. While the details of the self-heating effect may differ among models, we expect that the sharp halo-mass dependence of the core formation is a general feature of exothermic DM.