Possible Supermassive Dark Object Composed of Light Fermionic Gas with an Embedded Neutron Star Core

Abstract

The structure of dark matter admixed neutron stars (DANSs) are investigated, adopting a non-annihilating self-interacting fermionic dark matter (DM) model, with a particular focus on the case of the light DM particle mass mD ∈ [10-10, 1] GeV. The DANSs become DM-dominated configurations when mD <10-1 GeV, where a compact neutron star core becomes embedded within an extremely large DM halo. It is found that the maximum mass of DANSs is inversely proportional to m D, approximately as 0.627 (GeV/ m D)2 ~M, which implies that extremely large masses can be achieved for small m D. For mD 5×10-4 GeV, the calculated mass and size of the DM halo can be comparable to those of supermassive black holes such as Sgr A*. Our findings hint at a scenario where neutron stars might serve as strong gravitational seeds for such supermassive dark objects.