Can dwarf spheroidal galaxies host a central black hole ?

Abstract

We construct mass models of Milky Way dwarf spheroidal galaxies to place constraints on the central black hole (BH) masses they can host. We model the galaxies as a three-component system consisting of the stars, dark matter halo, and a central black hole, using the Osipkov--Merritt--Cuddeford class of anisotropic distribution function. The posterior distribution of black hole mass remains flat toward the low-mass end, indicating that the kinematic data places an upper limit on the black hole mass. Our analysis yields a 95% credible upper limit of (M/M) < 6. We combine our results with black hole mass measurements and upper limits from the literature to construct a unified M--σ relation spanning σ 10--300,km,s-1, described by (M) = 8.32 + 4.08,(σ/200,km,s-1), with an intrinsic scatter of σ int = 0.55. We compare the inferred limits to models of black hole growth via momentum-driven accretion and stellar capture, which predict black hole masses in the range 103--104,M for the range σ 6--12,km,s-1, in close agreement with the M--σ* relation within the 95% credible upper limits on the black hole masses derived in this work.

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