NuSTAR view of the X-ray transients Swift J174805.3-244637 and IGR J17511-3057

Abstract

We report on the NuSTAR observations of the neutron star low-mass X-ray binary Swift J174805.3-244637 (hereafter Swift~J17480) and the accreting millisecond X-ray pulsar IGR~J17511-3057 performed on March 4, 2023, and April 8, 2015, respectively. We describe the continuum emission of Swift~J17480 with a combination of two soft thermal components and an additional hard X-ray emission described by a power-law. We suggest that the spectral properties of Swift~J17480 are consistent with a soft spectral state. The source IGR~J17511-3057 exhibits a hard spectrum characterized by a Comptonized emission from the corona. The X-ray spectrum of both sources shows evidence of disc reflection. For the first time, we employ the self-consistent reflection models ( relxill and relxillNS) to fit the reflection features in the spectrum. From the best-fit spectral model, we find an inner disc radius (Rin) is precisely constrained to (1.99-2.68)\:RISCO and inclination to 30 1 for Swift~J17480. We determine an inner disc radius of 1.3\;RISCO and inclination of 44 3 for IGR~J17511-3057. A low inclination angle of the system is required for both sources. For the source IGR~J17511-3057, spinning at 4.1 ms, the value of co-rotation radius (Rco) is estimated to be 42 km (3.6\:RISCO), consistent with the position of inner disc radius as Rin Rco. We further place an upper limit on the magnetic field strength of the sources, considering the disc is truncated at the magnetospheric radius.