Ionised Accretion Discs in Active Galactic Nuclei: The Effects of a Lamppost with a Variable Height

Abstract

The X-ray emitting corona irradiates and ionises the surface of the inner accretion disc in Active Galactic Nuclei (AGNs). The ionisation parameter of the inner disc at a radius r from the black hole, (r), can be used to infer information about the location of the corona. Here, a new formula is derived that predicts (r,h) for a disc irradiated by a X-ray source at a height h above the black hole symmetry axis (i.e., a lamppost geometry). The equation is independent of the black hole mass and the X-ray spectrum, and accounts for the effects of gravitational light-bending on the ionisation state and a variable coronal dissipation factor. We predict a strong ionisation gradient across the surface of the inner disc that depends on the black hole spin and lamppost height. For a fixed h, the ionisation parameter is also expected to increase as λ3, where λ is the observed bolometric Eddington ratio of the AGN. Comparing this formula to the observed -λ relationship for Mrk 335 yields h λ0.5-0.6, supporting the view of a dynamic X-ray corona in AGNs.