AstroSat timing and spectral analysis of the accretion-powered millisecond X-ray pulsar IGR J17591-2342

IGR J17591–2342, a transient accretion-powered millisecond X-ray pulsar, was discovered during its 2018 outburst. Here, we present a timing and spectral analysis of the source using AstroSat data of the same outburst. From the timing analysis, we obtain updated values of binary orbital parameters, which reveal an average pulsar spin frequency of 527.425 6984(8) Hz. The pulse profiles can be fit well with four harmonically related sinusoidal components with fractional amplitudes of fundamental and second, third, and fourth harmonics as ∼13 per cent, ∼6 per cent, ∼0.9 per cent, and ∼0.2 per cent, respectively. The energydependent study of pulse profiles in the range of 3–20 keV shows that the fractional amplitude of both the fundamental and first overtone is consistent with being constant across the considered energy band. Besides, a decaying trend has been observed for both the fundamental and first overtone in the phase-delay versus energy relation, resulting in soft X-ray (2.8–3.3 keV) phase lags of ∼0.05 and ∼0.13 with respect to ≤ 15 keV photons, for the fundamental and first overtone, respectively. The combined spectra from the Large Area X-ray Proportional Counters and the Soft X-ray Telescope aboard AstroSat in the 1–18 keV range can be fit well with an absorbed model consisting of a Comptonization, a blackbody and a Gaussian emission-line component yielding as best-fitting parameters a blackbody seed photon temperature kTbb∼ 0.95 ± 0.03 keV, and an electron temperature kTe∼ 1.54 ± 0.03 keV. The spectral aspectssuggest the scattering of photonsfrom the accretion disc or the neutron star’ssurface.