Calibration and Limitations of the Mg II line-based Black Hole Masses

Abstract

We present the single-epoch black hole mass (M BH) calibrations based on the rest-frame UV and optical measurements of Mg II 2798\ and Hβ 4861\ lines and AGN continuum, using a sample of 52 moderate-luminosity AGNs at z0.4 and z0.6 with high-quality Keck spectra. We combine this sample with a large number of luminous AGNs from the Sloan Digital Sky Survey to increase the dynamic range for a better comparison of UV and optical velocity and luminosity measurements. With respect to the reference M BH based on the line dispersion of Hβ and continuum luminosity at 5100, we calibrate the UV and optical mass estimators, by determining the best-fit values of the coefficients in the mass equation. By investigating whether the UV estimators show systematic trend with Eddington ratio, FWHM of Hβ, the Fe II strength, and the UV/optical slope, we find no significant bias except for the slope. By fitting the systematic difference of Mg II-based and Hβ-based masses with the L3000/L5100 ratio, we provide a correction term as a function of the spectral index as = 0.24 (1+αλ) + 0.17, which can be added to the Mg II-based mass estimators if the spectral slope can be well determined. The derived UV mass estimators typically show >0.2 dex intrinsic scatter with respect to Hβ-based M BH, suggesting that the UV-based mass has an additional uncertainty of 0.2 dex, even if high quality rest-frame UV spectra are available.