Dark Matter Annihilation in Substructures Revised

Abstract

Upcoming γ-ray satellites will search for Dark Matter annihilations in Milky Way substructures (or 'clumps'). The prospects for detecting these objects strongly depend on the assumptions made on the distribution of Dark Matter in substructures, and on the distribution of substructures in the Milky Way halo. By adopting simplified, yet rather extreme, prescriptions for these quantities, we compute the number of sources that can be detected with upcoming experiments such as GLAST, and show that, for the most optimistic particle physics setup (m=40 GeV and annihilation cross section σ v = 3 × 10-26 cm3 s-1), the result ranges from zero to hundred sources, all with mass above 105M. However, for a fiducial DM candidate with mass m=100 GeV and σ v = 10-26 cm3 s-1, at most a handful of large mass substructures can be detected at 5 σ, with a 1-year exposure time, by a GLAST-like experiment. Scenarios where micro-clumps (i.e. clumps with mass as small as 10-6M) can be detected are severely constrained by the diffuse γ-ray background detected by EGRET.