Two-dimensional Models of Hydrodynamical Accretion Flows intoBlack Holes

Igor V. Igumenshchev; Marek A. Abramowicz

doi:10.1086/317354

The Astrophysical Journal Supplement Series

Two-dimensional Models of Hydrodynamical Accretion Flows into Black Holes

Igor V. Igumenshchev^1,2 and Marek A. Abramowicz^1,3

© 2000. The American Astronomical Society. All rights reserved. Printed in U.S.A.
The Astrophysical Journal Supplement Series, Volume 130, Number 2 Citation Igor V. Igumenshchev and Marek A. Abramowicz 2000 ApJS 130 463 DOI 10.1086/317354

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Author affiliations

¹ Institute of Theoretical Physics, Göteborg University and Chalmers University of Technology, 412-96 Göteborg, Sweden

² Institute of Astronomy, 48 Pyatnitskaya Street, 109017 Moscow, Russia

³ Laboratorio Interdisciplanare SISSA and ICTP, Trieste, Italy

Dates

Received 2000 March 26
Accepted 2000 June 20

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Abstract

We present a systematic numerical study of two-dimensional axisymmetric accretion flows around black holes. The flows have no radiative cooling and are treated in the framework of the viscous hydrodynamic approximation. The models calculated in this study cover the large range of the relevant parameter space. There are four types of flows, determined by the values of the viscosity parameter α and the adiabatic index γ: convective flows, large-scale circulations, pure inflows, and bipolar outflows. Thermal conduction introduces significant changes to the solutions but does not create a new flow type. Convective accretion flows and flows with large-scale circulations have significant outward-directed energy fluxes, which have important implications for the spectra and luminosities of accreting black holes.

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