Gravitational Vector Dark Matter

Abstract

A new dark sector consisting of a pure non-abelian gauge theory has no renormalizable interaction with SM particles, and can thereby realise gravitational Dark Matter (DM). Gauge interactions confine at a scale DM giving bound states with typical lifetimes τ M Pl4/5 DM that can be DM candidates if DM is below 100 TeV. Furthermore, accidental symmetries of group-theoretical nature produce special gravitationally stable bound states. In the presence of generic Planck-suppressed operators such states become long-lived: SU(N) gauge theories contain bound states with τ M Pl8/9 DM; even longer lifetimes τ= (M Pl/ DM)2N-4/ DM arise from SO(N) theories with N 8, and possibly from F4 or E8. We compute their relic abundance generated by gravitational freeze-in and by inflationary fluctuations, finding that they can be viable DM candidates for DM 1010 GeV.