The supermassive black hole masses of reverberation-mapped active galactic nuclei

Abstract

Using different kinds of velocity tracers derived from the broad Hβ profile (in the mean or rms spectrum) and the corresponding virial factors f, the central supermassive black hole (SMBH) masses (M BH) are calculated for a compiled sample of 120 reverberation-mapped (RM) AGNs. For its subsample of RM AGNs with measured stellar velocity dispersion (σ ), the multivariate linear regression technique is used to calibrate the mean value f, as well as the variable FWHM-based f. It is found that, whether excluding the pseudo-bulges or not, M BH from the Hβ line dispersion in the mean spectrum (σ Hβ,mean) has the smallest offset rms with respect to the M BH-σ relation. For the total sample excluding SDSS-RM AGNs, with respect to M BH from σ or that from the Hβ line dispersion in the rms spectrum (σ Hβ,rms), it is found that we can obtain M BH from the σ Hβ,mean with the smallest offset rms of 0.38 dex or 0.23 dex, respectively. It implies that, with respect to the Hβ FWHM, we prefer σ Hβ,mean to calculate M BH from the single-epoch spectrum. Using the FWHM-based f, we can improve M BH calculation from FWHM(Hβ) and the mean f, with a decreased offset rms from 0.52 dex to 0.39 dex with respect to M BH from σ for the subsample of 36 AGNs with σ . The value of 0.39 dex is almost the same as that from σ Hβ,mean and the mean f.