Spectral Models of Convection-Dominated Accretion Flows

Abstract

For small values of the dimensionless viscosity parameter, namely α 0.1, the dynamics of non-radiating accretion flows is dominated by convection; convection strongly suppresses the accretion of matter onto the central object and transports a luminosity 10-3-10-2 M c2 from small to large radii in the flow. A fraction of this convective luminosity is likely to be radiated at large radii via thermal bremsstrahlung emission. We show that this leads to a correlation between the frequency of maximal bremsstrahlung emission and the luminosity of the source, peak L2/3. Accreting black holes with X-ray luminosities 10-4 LEdd LX(0.5-10 keV) 10-7LEdd are expected to have hard X-ray spectra, with photon indices 2, and sources with LX 10-9LEdd are expected to have soft spectra, with 3.5. This is testable with Chandra and XMM.

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