A novel black hole mass scaling using coronal lines in active galaxies

Abstract

Using bonafide black hole (BH) mass estimates from reverberation mapping and the line ratio [Si VI]1.963μm/Brγ broad as tracer of the Active Galactic Nuclei (AGN) ionizing continuum, we find a novel BH-mass scaling relation of the form log(M BH) = (6.40 0.17) - (1.99 0.37) × log ([Si VI]/Brγ broad), over the BH mass interval, 106 - 108 M. The current sample consists of 21 Type-1 AGNs with the overall dispersion in our scaling relation at 0.47 dex, one that emulates the well-established M-σ relation which shows a dispersion 0.44 dex. The new scaling offers an economic, and physically motivated alternative for BH estimate using single epoch spectra, avoiding large telescope time (reverberation mapping) or absolute flux calibration (the continuum luminosity method). With the advent of big surveys in the infrared in the near future, we aim to reduce the scatter in the relation by supplementing with more sources.