2017
DOI: 10.1093/mnras/stx1771
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Discovery of a glitch in the accretion-powered pulsar SXP 1062

Abstract: We present timing analysis of the accretion powered pulsar SXP 1062, based on the observations of Swift, XMM-Newton and Chandra satellites covering a time span of about 2 years. We obtain a phase coherent timing solution which shows that SXP 1062 has been steadily spinning down with a rate − 4.29(7) × 10 −14 Hz s −1 leading to a surface magnetic field estimate of about 1.5 × 10 14 G. We also resolve the binary orbital motion of the system from X-ray data which confirms an orbital period of 656(2) days. On MJD … Show more

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Cited by 26 publications
(21 citation statements)
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“…This figure covers one revolution of the NS. reported by Serim et al (2017). The folded pulse profile still exhibits a double-peaked structure as it did before, however the peaks are now separated by nearly a full half-phase ( Fig.…”
Section: The 2019 Nustar Observation: a Recent Spin-up Eventsupporting
confidence: 67%
See 2 more Smart Citations
“…This figure covers one revolution of the NS. reported by Serim et al (2017). The folded pulse profile still exhibits a double-peaked structure as it did before, however the peaks are now separated by nearly a full half-phase ( Fig.…”
Section: The 2019 Nustar Observation: a Recent Spin-up Eventsupporting
confidence: 67%
“…Incorporating the orbital inclination angle calculated by Serim et al (2017) along with the orientation of the circumstellar disk (Gonzales-Galan et al 2017) and the inclincation of the NS spin axis derived in this work, a picture of the SXP 1062 system as a whole begins to emerge (see Fig. 11).…”
Section: Discussionmentioning
confidence: 77%
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“…For pulsars that accrete matter from a binary companion, the torque due to accretion can cause the neutron star to spin-up or spindown and is usually much stronger than the dipole radiation torque. There are only a few reported glitches in accreting pulsars: two spin-up glitches with ∆ν ≈ 1 µHz, each occurring during an accretion outburst episode (Galloway et al 2004;Serim et al 2017), and possibly two spin-down glitches (Klochkov et al 2009).…”
mentioning
confidence: 99%
“…It will have to be confronted by denser data 2 We suspect that the magnetosphere expanded prior to d = 586 and then it was pushed back during d = 586-621 ( Fig. 1) because a strong spinup glitch was reported by Serim et al (2017) (Table 4) that we also suspect that future glitches in HMXBs will be indicative of jerking of their magnetospheres.…”
Section: Beyond Spin-equilibrium Theorymentioning
confidence: 99%