Vanishing Compactness Gap and Fermionic Compact Dark Matter in Horava-Lifshitz Gravity

Abstract

We show that the gap in the compactness between black holes and neutron stars witnessed in general relativity may be vanishing in Horava-Lifshitz (HL) gravity. Assuming a fermion equation-of-state for simplicity, and solving the Tolman-Oppenheimer-Volkoff equation within the HL gravity framework, we see that there exists a minimum fermion mass mf(min)(q,y), above which the gap of the compactness between black hole and fermionic compact object vanishes, for a given deformation parameter q of HL and interaction strength y between fermions. Thus, in HL gravity, the mass and radius of an object found in the lower mass gap by LIGO-Virgo-KAGRA observations might not be able to classify it as a black hole or a neutron star. It is interesting to note that a fermion of mass 40\ GeV can form a highly compact object of mass 10-4\ and radius 1\ m that may play the role of the cold dark matter. In addition, we find the possible existence of another class of compact objects whose compactness is comparable to that of a black hole.