A universal minimal mass scale for present-day central black holes

Abstract

Intermediate-mass black holes (IMBHs) of mass M ≈ 102 - 105 solar masses, M, are the long-sought missing link between stellar black holes, born of supernovae, and massive black holes, tied to galaxy evolution by the empirical M/σ correlation. We show that low-mass black hole seeds that accrete stars from locally dense environments in galaxies following a universal M/σ relation grow over the age of the Universe to be above M0≈3×105M (5\% lower limit), independent of the unknown seed masses and formation processes. The mass M0 depends weakly on the uncertain formation redshift, and sets a universal minimal mass scale for present-day black holes. This can explain why no IMBHs have yet been found, and it implies that present-day galaxies with σ<S0≈40\,km\,s-1 lack a central black hole, or formed it only recently. A dearth of IMBHs at low redshifts has observable implications for tidal disruptions and gravitational wave mergers.