The σ Hβ-based dimensionless accretion rate and its connection with the corona for AGN

Abstract

With respect to the Hβ full width at half-maximum ( FWHMHβ), the broad Hβ line dispersion (σ Hβ) was preferred as a velocity tracer to calculate the single-epoch supermassive black hole mass (M BH) suggested by Yu2020b. For a compiled sample of 311 broad-line active galactic nuclei (AGN) with measured hard X-ray photon index (z<0.7), σ Hβ and the optical Fe II relative strength (R Fe) are measured from their optical spectra, which are used to calculate σ Hβ-based virial M BH and dimensionless accretion rate (M). With respect to FWHM Hβ, it is found that the mean value of σ Hβ-based M BH is on average larger by 0.26 dex, and the mean value of σ Hβ-based M is on average smaller by 0.51 dex. It is found that there exists a non-linear relationship between the Eddington ratio (L Bol/L Edd) and M, i.e., L Bol/L Edd M0.56 0.01. This non-linear relationship comes from the accretion efficiency η, which is smaller for AGN with higher M. We find a strong bivariate correlation of the fraction of energy released in the corona F X with M and , F X M-0.57 0.05 M BH-0.54 0.06. The flat slope of -0.57 0.05 favours the shear stress tensor of the accretion disk being proportional to the geometric mean of gas pressure and total pressure. We find a strong bivariate relation of with M and F X, M-0.21 0.02F X0.02 0.04. The hard X-ray spectrum becomes softer with increasing of F X, although the scatter is large.