Suzaku broadband spectroscopy of Swift J1753.5-0127 in the Low-Hard State

Abstract

We present Suzaku observations of the Galactic black hole candidate Swift J1753.5-0127 in the low-hard state. The broadband coverage of Suzaku enables us to detect the source over the energy range 0.6 -- 250 keV. The broadband spectrum (2 -- 250 keV) is found to be consistent with a simple power-law (gamma 1.63). In agreement with previous observations of this system, a significant excess of soft X-ray flux is detected consistent with the presence of a cool accretion disc. Estimates of the disc inner radius infer a value consistent with the ISCO (Rin 6 Rg, for certain values of, e.g. NH, i), although we cannot conclusively rule out the presence of an accretion disc truncated at larger radii (Rin 10 - 50 Rg). A weak, relativistically-broadened iron line is also detected, in addition to disc reflection at higher energy. However, the iron-K line profile favours an inner radius larger than the ISCO (R in 10 - 20 Rg). The implications of these observations for models of the accretion flow in the low-hard state are discussed.