Gravitational Production of Dark Matter during Reheating

Abstract

We consider the direct s-channel gravitational production of dark matter during the reheating process. Independent of the identity of the dark matter candidate or its non-gravitational interactions, the gravitational process is always present and provides a minimal production mechanism. During reheating, a thermal bath is quickly generated with a maximum temperature T max, and the temperature decreases as the inflaton continues to decay until the energy densities of radiation and inflaton oscillations are equal, at T RH. During these oscillations, s-channel gravitational production of dark matter occurs. We show that the abundance of dark matter (fermionic or scalar) depends primarily on the combination T max4/T RH MP3. We find that a sufficient density of dark matter can be produced over a wide range of dark matter masses: from a GeV to a ZeV.