Do stellar-mass and super-massive black holes have similar dining habits?

Abstract

Through the years numerous attempts have been made to connect the phenomenology and physics of mass accretion onto stellar-mass and super-massive black holes in a scale-invariant fashion. In this paper, we explore this connection at the radiatively-efficient (and non-jetted) end of accretion modes by comparing the relationship between the luminosity of the accretion disk and corona in the two source classes. We analyse 458 RXTE-PCA archival observations of the X-ray binary (XRB) GX339-4 focusing on the soft and soft-intermediate states, which have been suggested to be analogous to radiatively efficient AGN. The observed scatter in the Ldisk- Lcorona relationship of GX339-4 is high (0.43\,dex) and significantly larger than in a representative sample of radiatively-efficient, non- or weakly-jetted AGN (0.30\,dex). On the face of it, this would appear contrary to the hypothesis that the systems simply scale with mass. On the other hand we also find that GX339-4 and our AGN sample show different m and distributions, with the latter being broader in GX339-4 (dispersion of 0.16 cf. 0.08 for AGN). GX339-4 also shows an overall softer slope, with mean 2.20 as opposed to 2.07 for the AGN sample. Remarkably, once similarly broad and m distributions are selected, the AGN sample overlaps nicely with GX339-4 observations in the mass-normalised Ldisk- Lcorona plane, with a scatter of 0.30-0.33\,dex. This indicates that a mass-scaling of properties might hold after all, with our results being consistent with the disk-corona systems in AGN and XRBs exhibiting the same physical processes, albeit under different conditions for instance in terms of temperature, optical depth and/or electron energy distribution in the corona, heating-cooling balance, coronal geometry and/or black hole spin.