p-wave Annihilating Dark Matter from a Decaying Predecessor and the Galactic Center Excess

TL;DR

This paper proposes a p-wave annihilating dark matter model with a decaying precursor to explain the galactic center gamma-ray excess while satisfying dwarf galaxy constraints, involving a novel relic abundance mechanism and Sommerfeld enhancement.

Contribution

It introduces a new scenario where a metastable particle decays into p-wave dark matter, reconciling gamma-ray excess observations with dwarf galaxy constraints.

Findings

p-wave annihilation explains galactic center excess

Decaying precursor enables correct relic abundance

Enhanced annihilation in galaxy clusters predicted

Abstract

Dark matter (DM) annihilations have been widely studied as a possible explanation of excess gamma rays from the galactic center seen by Fermi/LAT. However most such models are in conflict with constraints from dwarf spheroidals. Motivated by this tension, we show that p-wave annihilating dark matter can easily accommodate both sets of observations due to the lower DM velocity dispersion in dwarf galaxies. Explaining the DM relic abundance is then challenging. We outline a scenario in which the usual thermal abundance is obtained through s-wave annihilations of a metastable particle, that eventually decays into the p-wave annihilating DM of the present epoch. The couplings and lifetime of the decaying particle are constrained by big bang nucleosynthesis, the cosmic microwave background and direct detection, but significant regions of parameter space are viable. A sufficiently large p-wave cross section can be found by annihilation into light mediators, that also give rise to Sommerfeld enhancement. A prediction of the scenario is enhanced annihilations in galaxy clusters.