Extending the Calibration of CIV-Based Single-Epoch Black Hole Mass Estimators for Active Galactic Nuclei

Abstract

We provide an updated calibration of CIV λ1549 broad emission line-based single-epoch (SE) black hole (BH) mass estimators for active galactic nuclei (AGNs) using new data for six reverberation-mapped AGNs at redshift z=0.005-0.028 with BH masses (bolometric luminosities) in the range 106.5-107.5 M (1041.7-1043.8 erg s -1). New rest-frame UV-to-optical spectra covering 1150-5700 \ for the six AGNs were obtained with the Hubble Space Telescope (HST). Multi-component spectral decompositions of the HST spectra were used to measure SE emission-line widths for the CIV, MgII, and Hβ lines as well as continuum luminosities in the spectral region around each line. We combine the new data with similar measurements for a previous archival sample of 25 AGNs to derive the most consistent and accurate calibrations of the CIV-based SE BH mass estimators against the Hβ reverberation-based masses, using three different measures of broad-line width: full-width at half maximum (FWHM), line dispersion (σ line) and mean absolute deviation (MAD). The newly expanded sample at redshift z=0.005-0.234 covers a dynamic range in BH mass (bolometric luminosity) of \ M BH/M = 6.5-9.1 (\ L bol/erg s -1=41.7-46.9), and we derive the new CIV-based mass estimators using a Bayesian linear regression analysis over this range. We generally recommend the use of σ line or MAD rather than FWHM to obtain a less biased velocity measurement of the CIV emission line, because its narrow-line component contribution is difficult to decompose from the broad-line profile.