Black Holes, Dark Matter Spikes, and Constraints on Simplified Models with $t$-Channel Mediators

TL;DR

This paper investigates how dark matter density spikes near the Galactic Center influence gamma-ray signals, constraining simplified fermionic dark matter models through Fermi-LAT data and astrophysical parameter variations.

Contribution

It provides a detailed analysis of dark matter spike profiles near the Galactic Center and derives constraints on simplified fermionic dark matter models considering velocity-dependent annihilation.

Findings

Gamma-ray flux depends strongly on spike profile modeling.

Conservative spike models yield flux below current detection limits.

Optimistic spike models can produce detectable signals for certain parameters.

Abstract

The density spike of dark matter (DM) in the subparsec region near the supermassive black hole at the Galactic Center can provide potentially observable gamma-ray signals coming from DM annihilations. Taking Fermi-$LAT$ data for the gamma-ray flux from the point source 3FGL J1745.6-2859c (Sgr A*), we calculate the resulting constraints on generic models of DM, allowing for the possibility of a non-negligible velocity-dependent component of the annihilation cross section. We consider a variety of selections for the astrophysical parameters that describe the spike profile and find that the gamma-ray flux is strongly dependent on these selections, particularly the modelling of spike depletion effects due to gravitational interactions with baryons, which affect the spike radius and steepness profile. We calculate constraints on the DM parameter space for both attenuated and idealized spikes, considering different choices for the steepness profiles in each case. We find that for the most conservative selection of parameters, corresponding to a depleted spike with an NFW cusp profile, the gamma-ray flux for a 100 GeV thermal relic is lower than current observational constraints by several orders of magnitude. For more optimistic choices of parameters corresponding to spikes that have not been attenuated, bounds on DM masses can be obtained for a variety of choices of steepness profiles. We then specialize to a class of simplified models of fermionic DM that annihilate dominantly through the $t-$channel exchange of two scalar mediators with arbitrary mixing angle $\alpha$, and calculate the indirect detection constraints coming from the DM spike. Along the way, we discuss constraints on the astrophysical parameters describing the DM spike, taking the Galactic Center excess as a signal of DM annihilation.