MeV Dark Matter in light of the Small Scale Crisis

Abstract

The small-scale crisis is one of the most outstanding puzzles in modern cosmology and astrophysics. It may imply a suppression of matter perturbation at small scale. In this work, by taking into account of the gravitational effects from the non-equilibrium production of DM, we propose a new mechanism, which can realize such desired suppression and alleviate the crisis within the framework of cold dark matter (DM) and simple inflation. Moreover, in this new mechanism, we establish a novel relation between the particle mass of DM, m, and the critical scale of suppression, k-1. As k-1 will be further constrained in future astrophysical observations, m can be constrained accordingly with this relation. It thus provides a new method in complementary to other existing strategies of determining m. Furthermore, to illustrate our theoretical prediction, we consider a suppression at k-1=1~kpc that can partially alleviate the small-scale crisis, and obtain m=2.2~MeV for realizing such suppression. Then we plot the power spectrum of linear matter perturbation for this case, and illustrate a salient feature of the suppression that can serves a smoking-gun signature of this new mechanism in future observations.