Carr criterion and mass gaps in non-singular primordial black hole formation

Abstract

Non-singular gravitational theories are expected to be relevant in the early universe. In this paper, we derive a set of effective Friedmann equations describing the dynamics of matter shells in the presence of a gravitational regulator . We find that such a regulator induces a primordial black hole mass gap such that below a certain mass Mgap(, RH) no black holes can form. The order of magnitude of this mass gap is set by the regulator c2/G, with subleading dependence on the horizon radius at time of formation RH. Finally, we show that over a wide range of equation of state parameters ω= 0 … 1/3, the mass gap implies a Carr criterion of the form δH > 2G Mgap/RH - 1. If the horizon size is of the same order of the regulator, RH , this new criterion is stronger than the traditional Carr criterion for primordial black hole formation. This connects the primordial black hole abundance directly to the presence of gravitational regulators.