Ultramassive black holes in the most massive galaxies: M BH-σ versus M BH-R b

Abstract

[Abridged] We investigate the nature of the relations between black hole (BH) mass (M BH) and the central velocity dispersion (σ) and, for core-S\'ersic galaxies, the size of the depleted core (R b). Our sample of 144 galaxies with dynamically determined M BH encompasses 24 core-S\'ersic galaxies, thought to be products of gas-poor mergers, and reliably identified based on high-resolution HST imaging. For core-S\'ersic galaxies -- i.e., combining normal-core (R b < 0.5 kpc) and large-core galaxies (R b 0.5 kpc), we find that M BH correlates remarkably well with R b such that M BH R b1.20 0.14 (rms scatter in log M BH of rms 0.29 dex), confirming previous works on the same galaxies except three new ones. Separating the sample into S\'ersic, normal-core and large-core galaxies, we find that S\'ersic and normal-core galaxies jointly define a single log-linear M BH-σ relation M BH σ 4.88 0.29 with rms 0.47 dex, however, at the high-mass end large-core galaxies (four with measured M BH) are offset upward from this relation by (2.5-4) × σ s, explaining the previously reported steepening of the M BH-σ relation for massive galaxies. Large-core spheroids have magnitudes MV -23.50 mag, half-light radii Re > 10 kpc and are extremely massive M* 1012M. Furthermore, these spheroids tend to host ultramassive BHs (M BH 1010M) tightly connected with their R b rather than σ. The less popular M BH-R b relation exhibits 62% less scatter in log M BH than the M BH- σ relations.