Ruth A. Daly
Published 2016-01-13Version 1
Relationships between beam power and accretion disk luminosity are studied for a sample of 55 HERG, 13 LERG, and 29 RLQ with powerful outflows. The ratio of beam power to disk luminosity tends to be high for LERG, low for RLQ, and spans the full range of values for HERG. Writing general expressions for the disk luminosity and beam power and applying the empirically determined relationships allows a function that parameterizes the spins of the holes to be estimated. Interestingly, one of the solutions that is consistent with the data has a functional form that is remarkably similar to that expected in the generalized Blandford-Znajek model with a magnetic field that is similar in form to that expected in MAD and ADAF models. Values of the spin function, obtained independent of specific outflow models, suggest that spin and AGN type are not related for these types of sources. The spin function can be used to solve for black hole spin in the context of particular outflow models, and one example is provided.
Comments: Accepted for publication in MNRAS Letters
Birth, life, and death of black hole binaries around supermassive black holes: dynamical evolution of gravitational wave sources
Supermassive black holes in disk-dominated galaxies outgrow their bulges and co-evolve with their host galaxies
Supermassive black holes and their feedback effects in the IllustrisTNG simulation
![QR code for arXiv:1601.03327 [astro-ph.GA]](http://oss.arxitics.com/images/favicon.svg)