Jeremy D. Schnittman, Julian H. Krolik
Published 2009-06-02Version 1
We present new calculations of X-ray polarization from black hole accretion disks in the thermally-dominated state, using a Monte-Carlo ray-tracing code in full general relativity. In contrast to many previously published studies, our approach allows us to include returning radiation that is deflected by the strong-field gravity of the BH and scatters off of the disk before reaching a distant observer. Although carrying a relatively small fraction of the total observed flux, the scattered radiation tends to be highly polarized and in a direction perpendicular to the direct radiation. We show how these new features of the polarization spectra may be developed into a powerful tool for measuring black hole spin and probing the gas flow in the innermost disk.
Comments: 6 pages, 3 figures, proceedings of "The Coming of Age of X-ray Polarimetry," Rome, Italy, April 27-30, 2009
X-ray Polarization from Accreting Black Holes: II. The Thermal State
Towards a complete description of spectra and polarization of black hole accretion disks: albedo profiles and returning radiation
Black hole accretion disks in the canonical low-hard state
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