On the radiation beaming of bright X-ray pulsars and constraints on neutron star mass–radius relation

Mushtukov, Alexander A.; Verhagen, Patrick A; Tsygankov, Sergey S.; Klis, M. van der; Lutovinov, A.; Larchenkova, T. I.

doi:10.1093/mnras/stx2905

Cited by 55 publications

(44 citation statements)

References 41 publications

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“…Fan-beam emission becomes dominant, which reduces the eclipse of the accretion column. Furthermore, the contribution of the flux reflected by the NS surface is significant (Mushtukov et al 2018). It raises the un-pulsed flux, therefore we see the luminosity increasing and the pulsed fraction decreasing.…”

Section: Ns Whole Surface Thermal Emissionmentioning

confidence: 70%

Anticorrelation between X-ray luminosity and pulsed fraction in the Small Magellanic Cloud pulsar SXP 1323

Yang

Zezas

Coe

et al. 2018

Monthly Notices of the Royal Astronomical Society: Letters

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We report the evidence for the anti-correlation between pulsed fraction (PF) and luminosity of the X-ray pulsar SXP 1323, found for the first time in a luminosity range 10 35 -10 37 erg s −1 from observations spanning 15 years. The phenomenon of a decrease in X-ray PF when the source flux increases has been observed in our pipeline analysis of other X-ray pulsars in the Small Magellanic Cloud (SMC). It is expected that the luminosity under a certain value decreases as the PF decreases due to the propeller effect. Above the propeller region, an anti-correlation between the PF and flux might occur either as a result of an increase in the un-pulsed component of the total emission or a decrease of the pulsed component. Additional modes of accretion may also be possible, such as spherical accretion and a change in emission geometry. At higher mass accretion rates, the accretion disk could also extend closer to the neutron star (NS) surface, where a reduced inner radius leads to hotter inner disk emission. These modes of plasma accretion may affect the change in the beam configuration to fan-beam dominant emission.

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Section: Ns Whole Surface Thermal Emissionmentioning

confidence: 70%

Anticorrelation between X-ray luminosity and pulsed fraction in the Small Magellanic Cloud pulsar SXP 1323

Yang

Zezas

Coe

et al. 2018

Monthly Notices of the Royal Astronomical Society: Letters

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“…Due to a large gradient of the B-field strength over the visible column height (see, e.g., Nishimura 2015) or latitudes on the stellar surface, the scattering feature can vanish from the observed energy spectra. However, a situation where the accretion column is partially eclipsed by the neutron star at certain phases of the pulse and the observer sees only a fraction of the accretion column is possible (Mushtukov et al 2018). In this case, the dispersion of the magnetic field strength over the visible part of the column is relatively small, and the cyclotron line can appear at some phases of pulsations as it is observed in GRO J2058+42.…”

Section: Discussionmentioning

confidence: 99%

Discovery of a Pulse-phase-transient Cyclotron Line in the X-Ray pulsar GRO J2058+42

Molkov

Lutovinov

Tsygankov

et al. 2019

ApJL

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We report the discovery of absorption features in the X-ray spectrum of the transient X-ray pulsar GRO J2058+42. The features are detected around ∼ 10, ∼ 20 and ∼ 30 keV in both NuSTAR observations carried out during the source type II outburst in spring 2019. The most intriguing property is that the deficit of photons around these energies is registered only in the narrow phase interval covering around 10% of the pulsar spin period. We interpret these absorption lines as a cyclotron resonant scattering line (fundamental) and two higher harmonics. The measured energy allow us to estimate the magnetic field strength of the neutron star as ∼ 10 12 G.

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“…A third theory involves reflection of energetic photons off the accretion mound that forms at the base of the column (Mushtukov et al 2018). Again the accretion column would diminish as accretion lessens, leading to fewer photons being reflected from the mound.…”

Section: Discussionmentioning

confidence: 99%

On the Geometry of the X-ray emission from pulsars a consistent inclination and beaming solution for the Be/X-ray pulsar SXP 1062

Cappallo

Laycock

Christodoulou

et al. 2020

Monthly Notices of the Royal Astronomical Society

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SXP 1062 is a long-period X-ray pulsar (XRP) with a Be optical companion located in the Small Magellanic Cloud. First discovered in 2010 from XMM–Newton data, it has been the target of multiple observational campaigns due to the seeming incongruity between its long spin period and recent birth. In our continuing modelling efforts to determine the inclination angle (i) and magnetic axis angle (θ) of XRPs, we have fitted 19 pulse profiles from SXP 1062 with our pulsar model, Polestar, including three consecutive Chandra observations taken during the trailing end of a Type I outburst. These fittings have resulted in most likely values of i = 76○ ± 2○ and θ = 40○ ± 9○. SXP 1062 mostly displays a stable double-peaked pulse profile with the peaks separated by roughly a third of a phase, but recently the pulsar has spun up and widened to a spacing of roughly half of a phase, yet the Polestar fits for i and θ remain constant. Additionally, we note a possible correlation between the X-ray luminosity and the separation of the peaks in the pulse profiles corresponding to the highest luminosity states.

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On the radiation beaming of bright X-ray pulsars and constraints on neutron star mass–radius relation

Cited by 55 publications

References 41 publications

Anticorrelation between X-ray luminosity and pulsed fraction in the Small Magellanic Cloud pulsar SXP 1323

Anticorrelation between X-ray luminosity and pulsed fraction in the Small Magellanic Cloud pulsar SXP 1323

Discovery of a Pulse-phase-transient Cyclotron Line in the X-Ray pulsar GRO J2058+42

On the Geometry of the X-ray emission from pulsars a consistent inclination and beaming solution for the Be/X-ray pulsar SXP 1062

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