SWIFT J1910.2-0546: A possible black hole binary with a retrograde spin or truncated disk

R. C. Reis, M. T. Reynolds, J. M. . Miller, D. J. Walton, D. Maitra, A. King, N. Degenaar

Published 2013-10-01Version 1

We present the first results from a long (51 ks) XMM-Newton observation of the Galactic X-ray binary Swift J1910.2-0546 in a intermediate state, obtained during its 2012 outburst. A clear, asymmetric iron emission line is observed and physically motivated models are used to fully describe the emission-line profile. Unlike other sources in their intermediate spectral states, the inner accretion disk in Swift J1910.2-0546 appears to be truncated, with an inner radius of \rin$=9.4^{+1.7}_{-1.3}$\rg\ at a 90% confidence limit. Quasi-periodic oscillations are also found at approximately 4.5 and 6 hz, which correlates well with the break frequency of the underlying broad-band noise. Assuming that the line emission traces the ISCO, as would generally be expected for an intermediate state, the current observation of Swift J1910.2-0546 may offer the best evidence for a possible retrograde stellar mass black hole with a spin parameter $a< -0.32 cJ/GM^2$ (90% confidence). Although this is an intriguing possibility, there are also a number of alternative scenarios which do not require a retrograde spin. For example, the inner accretion disk may be truncated at an unusually high luminosity in this case, potentially suffering frequent evaporation/condensation, or it could instead be persistently evacuated through mass loss in a relativistic jet. Further observations are required to distinguish between these different interpretations.