We present the spectral and timing analysis of the X-ray pulsar GRO J1744-28 during its 2014 outburst using data collected with the X-ray satellites Swift, INTEGRAL, Chandra, and XMM-Newton. We derived, by phase-connected timing analysis of the observed pulses, an updated set of the source ephemeris. We were also able to investigate the spin-up of the X-ray pulsar as a consequence of the accretion torque during the outburst. Relating the spin-up rate and the mass accretion rate as nu proportional to M-beta, we fitted the pulse phase delays obtaining a value of beta = 0.96(3). Combining the results from the source spin-up frequency derivative and the flux estimation, we constrained the source distance to be between 3.4 and 4.1 kpc, assuming a disc viscous parameter a to be in the range of 0.1-1. Finally, we investigated the presence of a possible spin-down torque by adding a quadratic component to the pulse phase delay model. The marginal statistical improvement of the updated model does not allow us to firmly confirm the presence of this component.
Sanna, A., Riggio, A., Burderi, L., Pintore, F., Di Salvo, T., D'Aì, A., et al. (2017). Study of the accretion torque during the 2014 outburst of the X-ray pulsar GRO J1744−28. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 469(1), 2-12 [10.1093/mnras/stx635].
Study of the accretion torque during the 2014 outburst of the X-ray pulsar GRO J1744−28
Di Salvo, T.;Iaria, R.;Gambino, A. F.
2017-01-01
Abstract
We present the spectral and timing analysis of the X-ray pulsar GRO J1744-28 during its 2014 outburst using data collected with the X-ray satellites Swift, INTEGRAL, Chandra, and XMM-Newton. We derived, by phase-connected timing analysis of the observed pulses, an updated set of the source ephemeris. We were also able to investigate the spin-up of the X-ray pulsar as a consequence of the accretion torque during the outburst. Relating the spin-up rate and the mass accretion rate as nu proportional to M-beta, we fitted the pulse phase delays obtaining a value of beta = 0.96(3). Combining the results from the source spin-up frequency derivative and the flux estimation, we constrained the source distance to be between 3.4 and 4.1 kpc, assuming a disc viscous parameter a to be in the range of 0.1-1. Finally, we investigated the presence of a possible spin-down torque by adding a quadratic component to the pulse phase delay model. The marginal statistical improvement of the updated model does not allow us to firmly confirm the presence of this component.
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