A NuSTAR confirmation of the 36 ks hard X-ray pulse-phase modulation in the magnetar 1E 1547.0-5408
Abstract
This paper describes an analysis of the NuSTAR data of the fastest-rotating magnetar 1E 1547-5408, acquired in 2016 April for a time lapse of 151 ks. The source was detected with a 1-60 keV flux of 1.7 × 10-11 ergs s-1 cm-2, and its pulsation at a period of 2.086710(5) sec. In 8-25 keV, the pulses were phase-modulated with a period of T=36.0 2.3 ks, and an amplitude of 0.2 sec. This reconfirms the Suzaku discovery of the same effect at T=36.0 +4.5-2.5 ks, made in the 2009 outburst. These results strengthen the view derived from the Suzaku data, that this magnetar performs free precession as a result of its axial deformation by 0.6 × 10-4, possibly caused by internal toroidal magnetic fields reaching 1016 G. Like in the Suzaku case, the modulation was not detected in energies below 8 keV. Above 10 keV, the pulse-phase behaviour, including the 36 ks modulation parameters, exhibited complex energy dependences: at 22 keV, the modulation amplitude increased to 0.5 sec, and the modulation phase changed by 65 over 10--27 keV, followed by a phase reversal. Although the pulse significance and pulsed fraction were originally very low in >10 keV, they both increased noticeably, when the arrival times of individual photons were corrected for these systematic pulse-phase variations. Possible origins of these complex phenomena are discussed, in terms of several physical processes that are specific to ultra-strong magnetic fields.
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