Super-Eddington accretion disc around a Kerr black hole
Abstract
We calculate the structure of accretion disc around a rapidly rotating black hole with a super-Eddington accretion rate. The luminosity and height of the disc are reduced by the advection effect. In the case of a large viscosity parameter, alpha > 0.03, the accretion flow strongly deviates from thermodynamic equilibrium and overheats in the central region. With increasing accretion rate, the flow temperature steeply increases, reaches a maximum, and then falls off. The maximum is achieved in the advection dominated regime of accretion. The maximum temperature in the disc around a massive black hole, M=108 Msun, with alpha=0.3 is of order 3 x 108 K. Discs with large accretion rates can emit X-rays in quasars as well as in galactic black hole candidates.
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