J-factors for self-interacting dark matter in 20 dwarf spheroidal galaxies

Abstract

Dwarf spheroidal galaxies are among the most promising targets for indirect dark matter (DM) searches in γ-rays. The γ-ray flux from DM annihilation in a dwarf spheroidal galaxy is proportional to the J-factor of the source. The J-factor of a dwarf spheroidal galaxy is the line-of-sight integral of the DM mass density squared times σ ann v rel /(σ ann v rel)0, where σ ann v rel is the DM annihilation cross-section times relative velocity v rel=| v rel|, angle brackets denote average over v rel, and (σ ann v rel)0 is the v rel-independent part of σ ann v rel. If σ ann v rel is constant in v rel, J-factors only depend on the DM space distribution in the source. However, if σ ann v rel varies with v rel, as in the presence of DM self-interactions, J-factors also depend on the DM velocity distribution, and on the strength and range of the DM self-interaction. Models for self-interacting DM are increasingly important in the study of the small scale clustering of DM, and are compatible with current cosmological observations. Here we derive the J-factor of 20 dwarf spheroidal galaxies from stellar kinematic data under the assumption of Yukawa DM self-interactions. J-factors are derived through a profile Likelihood approach, assuming either NFW or cored DM profiles. We also compare our results with J-factors derived assuming the same velocity for all DM particles in the target galaxy. We find that this common approximation overestimates the J-factors by up to one order of magnitude. J-factors for a sample of DM particle masses, self-interaction coupling constants and density profiles are provided electronically, ready to be used in other projects.