Calibrating Mg II-based black-hole mass estimators using Low-to-High-Luminosity Active Galactic Nuclei

Abstract

We present single-epoch black-hole mass () estimators based on the rest-frame ultraviolet (UV) \ 2798\ and optical \ 4861\ emission lines. To enlarge the luminosity range of active galactic nuclei (AGNs), we combine the 31 reverberation-mapped AGNs with relatively low luminosities from Bahk et al. 2019, 47 moderate-luminosity AGNs from Woo et al. 2018, and 425 high-luminosity AGNs from the Sloan Digital Sky Survey (SDSS). The combined sample has the monochromatic luminosity at 5100\ ranging λ L5100 41.3-46.5 , over the range of 5.5 < \ < 9.5. Based on the fiducial mass from the line dispersion or full width half maximum (FWHM) of \ paired with continuum luminosity at 5100, we calibrate the best-fit parameters in the black hole mass estimators using the \ line. We find that the differences in the line profiles between \ and \ have significant effects on calibrating the UV \ estimators. By exploring the systematic discrepancy between the UV and optical \ estimators as a function of AGN properties, we suggest to add correction term = -1.14 (FWHMMgII/σMgII) + 0.33 in the UV mass estimator equation. We also find a 0.1 dex bias in the \ estimation due to the difference of the spectral slope in the 2800-5200 \ range. Depending on the selection of \ estimator based on either line dispersion or FWHM and either continuum or line luminosity, the derived UV mass estimators show >~0.1 dex intrinsic scatter with respect to the fiducial \ based .