Evidence of disc reflection in the X-ray spectrum of the neutron star low mass X-ray binary 4U 1636-536

Abstract

We present a broadband spectral analysis of the atoll source 4U~1636-536 observed for 92 ks with . The source was found to be in a low-luminosity state during this observation with 3-79 X-ray luminosity of L3-79 keV=(1.030.01)× 1037 ergs/s, assuming a distance of 6 kpc. We have identified and removed twelve type-I X-ray bursts during this observation to study the persistent emission. The continuum is well described by a thermal Comptonization model nthcomp with 1.9, kTe28 , and kTs0.9. The data reveal a clear signature of disc reflection, a significantly broad Fe-K emission line (around 5-8), and the corresponding reflection hump (around 15-30). We have modeled the data with two relativistically blurred reflection models. Both families of reflection models prefer truncated inner disc radii prior to the ISCO. We find that the inner disc is truncated with an inner radius of Rin=(3.2-4.7)\;RISCO (16-24\,Rg\: or\: 36-54 km). This inner disc radius suggests that the neutron star magnetic field strength is B≤2.0×109 G.