A normal supermassive black hole in NGC 1277 [GA]

http://arxiv.org/abs/1601.05151


The identification of galaxies with `overly massive’ black holes requires two measurements: a black hole mass (M_bh) and a host spheroid mass (M_sph,*). Here we provide our measurements for NGC 1277. Our structural decomposition reveals that NGC 1277 is dominated by a `classical’ spheroid with a Sersic index n=5.3, a half-light radius R_e=2.1 kpc, and a stellar mass of 2.7×10^{11} M_sun (using M_*/L_V=11.65, Martin-Navarro et al.). This mass is an order of magnitude greater than originally reported. Using the latest (M_bh)-n, (M_bh)-(M_sph,*) and (M_bh)-sigma relations, the expected black hole mass is respectively (0.57^{+1.29}_{-0.40})x10^9 M_sun, (1.58^{+4.04}_{-1.13})x10^9 M_sun, and (2.27^{+4.04}_{-1.44})x10^9 M_sun (using sigma=300 km/s) for which the `sphere-of-influence’ is 0″.31. Our new kinematical maps obtained from laser guide star assisted, adaptive optics on the Keck I Telescope reaffirm the presence of the inner, nearly edge-on, disk seen and modelled in the galaxy image. This disk produces a large velocity shear (~400 km/s) across the inner 0″.2 (70 pc) plus elevated values of sqrt{sigma^2+(V_rot)^2} across the inner 3″.8×0″.6 region of the galaxy. Unfortunately, this disk also resulted in our new multi-Gaussian expansion (MGE) models and Jeans Anisotropic MGE (JAM) analysis struggling to match this component. Our optimal black hole mass, albeit a probable upper limit, is 1.2×10^9 M_sun (M/L_V=12.3). This is an order of magnitude smaller than originally reported and 4 times smaller than recently reported. It gives an M_bh/M_sph,* ratio of 0.45% in agreement with the median (~0.5%) and range (0.1 to 5.0%) observed in non-dwarf, early-type galaxies.

Read this paper on arXiv…

A. Graham, M. Durre, G. Savorgnan, et. al.
Thu, 21 Jan 16
39/52

Comments: Accepted to appear in ApJ (originally submitted 19 August, 2015). 15 pages (including 11 figures and 1 page of references)