AAS 195th Meeting, January 2000
Session 126. Drizzling Down the Potential Well: Accreting Compact Objects II
Oral, Saturday, January 15, 2000, 2:00-3:30pm, Regency VII

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[126.04] A complete relativistic ionized accretion disc in Cygnus X--1

A.J. Young (IoA, Cambridge and University of Maryland), A.C. Fabian (IoA, Cambridge), Y. Tanaka (MPE), R.R. Ross (College of the Holy Cross, Worcester, MA)

The galactic black hole candidate Cygnus~X--1 is observed to be in one of two X-ray spectral states; either the low/hard (low soft X-ray flux and a flat power law tail) or high/soft (high blackbody-like soft X-ray flux and a steep power law tail) state. The physical origin of these two states is unclear. We present here a model of an ionized accretion disc, the spectrum of which is blurred by relativistic effects, and fit it to the \emph{ASCA} and \emph{Ginga} data of Cygnus~X--1 in both spectral states. We confirm that relativistic blurring provides a much better fit to the low/hard state data and, contrary to some previous results, find the data of both states to be consistent with an ionized thin accretion disc with a reflected fraction of unity extending to the innermost stable circular orbit around the black hole. Our model is an alternative to those which, in the low/hard state, require the accretion disc to be truncated at a few tens of Schwarzschild radii, within which there is a Thomson-thin, hot accretion flow. We suggest a mechanism that may cause the changes in spectral state.


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