A Fundamental Line of Black Hole Activity

Abstract

Black hole systems with outflows are characterized by intrinsic physical quantities such as the outflow beam power, Lj, the bolometric accretion disk luminosity, Lbol, and black hole mass or Eddington luminosity, LEdd. When these systems produce compact radio emission and X-ray emission, they can be placed on the fundamental plane (FP), an empirical relationship between compact radio luminosity, X-ray luminosity, and black hole mass. We consider a fundamental line (FL) of black hole activity written in terms of dimensionless intrinsic physical quantities: log (Lj/LEdd) = A ~log(Lbol/LEdd) +B or equivalently log (Lj/Lbol) = (A-1) ~log(Lbol/LEdd) +B, and show that the FP may be written in the form of the FL. The FL has a smaller dispersion than the FP suggesting the FP derives from the FL. Disk-dominated and jet-dominated systems have consistent best fit FL parameters suggesting they are governed by the same physics. There are sharp cutoffs at Lbol/LEdd 1 and Lj/LEdd 0.2, and no indication of a strong break as Lbol/LEdd → 1. Consistent values of A are obtained for numerous samples including FRII sources, LINERS, AGNs with compact radio emission, and Galactic black holes, which indicate a weighted mean value of A 0.45 0.01. The results suggest that a common physical mechanism related to the dimensionless bolometric luminosity of the disk controls the jet power relative to the disk power. The beam power Lj can be obtained by combining FP best-fit parameters and compact radio luminosity for sources that fall on the FP.