The Growth Rate of Supermassive Black Holes and Its Dependence on the Stellar Mass of Galaxies at the Present Epoch
Abstract
We study the distribution of accretion rates onto supermassive black holes in AGNs of the local Universe ($z<0.15$) based on near-infrared and hard X-ray surveys (2MASS and Swift/BAT). Using sufficiently accurate black hole mass estimates has allowed the Eddington ratio $λ_{\textrm{Edd}}$ to be reliably estimated approximately for half of the objects in the AGN sample; a rougher estimate from the correlation of $M_{\textrm{BH}}$ with the galaxy stellar mass $M_{\ast}$ has been used for the remaining ones. As a result, for a wide range of galaxy masses, $9.28<\log(M_{\ast}/M_{\odot})<12.28$, including the most massive galaxies in the local Universe, we have shown that the distribution $f(λ_{\textrm{Edd}})$ above $\log{λ_{\textrm{Edd}}}={-}3$ is described by a power law with $M_{\ast}$-independent parameters and falls off with a characteristic slope ${≈}0.7$ up to the Eddington limit ($\log{λ_{\textrm{Edd}}}∼ 0$), where there is evidence for a break. In addition, there is evidence that at $\log{λ_{\textrm{Edd}}}<{-}3$ the dependence $f(λ_{\textrm{Edd}})$ has a lower slope or flattens out. The mean characteristic growth time of supermassive black holes at the present epoch has been estimated. It has turned out to depend weakly on the galaxy stellar mass and to exceed the lifetime of the Universe, but by no more than one order of magnitude. The mean duty cycle of supermassive black holes (the fraction of objects with $λ_{\textrm{Edd}}>0.01$) in the local Universe has been estimated. It also depends weakly on $M_{\ast}$ and is 0.2-1${%}$. On the whole, these results obtained for the present epoch confirm the trends pointed out in previous studies for the earlier Universe, refining the parameters of the dependence $f(λ_{\textrm{Edd}}|M_{\ast})$ at $z<0.15$. The revealed universal (weakly dependent on the galaxy stellar mass) pattern of the dependence $f(λ_{\textrm{Edd}})$ probably stems from the fact that, at present, the episodes of mass accretion onto supermassive black holes are associated mainly with stochastic processes in galactic nuclei rather than with global galaxy evolution processes.
- Publication:
-
Astronomy Letters
- Pub Date:
- August 2021
- DOI:
- 10.1134/S106377372108003X
- arXiv:
- arXiv:2111.07422
- Bibcode:
- 2021AstL...47..515P
- Keywords:
-
- supermassive black holes;
- accretion;
- active galactic nuclei;
- X-ray sources;
- luminosity function;
- Astrophysics - High Energy Astrophysical Phenomena;
- Astrophysics - Astrophysics of Galaxies
- E-Print:
- 16 pages, 12 figures. Published in Astronomy Letters