Supermassive Black Holes with High Accretion Rates in Active Galactic Nuclei. V. A New Size-Luminosity Scaling Relation for the Broad-Line Region

Abstract

This paper reports results of the third-year campaign of monitoring super-Eddington accreting massive black holes (SEAMBHs) in active galactic nuclei (AGNs) between 2014-2015. Ten new targets were selected from quasar sample of Sloan Digital Sky Survey (SDSS), which are generally more luminous than the SEAMBH candidates in last two years. Hβ lags (τ_ Hβ) in five of the 10 quasars have been successfully measured in this monitoring season. We find that the lags are generally shorter, by large factors, than those of objects with same optical luminosity, in light of the well-known R_ Hβ-L5100 relation. The five quasars have dimensionless accretion rates of M=10-103. Combining measurements of the previous SEAMBHs, we find that the reduction of Hβ lags tightly depends on accretion rates, τ_ Hβ/τ_R-LM-0.42, where τ_R-L is the Hβ lag from the normal R_ Hβ-L5100 relation. Fitting 63 mapped AGNs, we present a new scaling relation for the broad-line region: R_ Hβ=α144β1\,[1,(M/Mc)-γ1], where 44=L5100/1044\, erg~s-1 is 5100 \ continuum luminosity, and coefficients of α1=(29.6-2.8+2.7) lt-d, β1=0.56-0.03+0.03, γ1=0.52-0.16+0.33 and Mc=11.19-6.22+2.29. This relation is applicable to AGNs over a wide range of accretion rates, from 10-3 to 103. Implications of this new relation are briefly discussed.