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

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

Abstract The luminosity of accreting magnetized neutron stars can largely exceed the Eddington value due to appearance of accretion columns. The height of the columns can be comparable to the neutron star radius. The columns produce the X-rays detected by the observer directly and illuminate the ste...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society 2018-03, Vol.474 (4), p.5425-5436
Main Authors: Mushtukov, Alexander A, Verhagen, Patrick A, Tsygankov, Sergey S, van der Klis, Michiel, Lutovinov, Alexander A, Larchenkova, Tatiana I
Format: Article
Language:eng
Subjects:
Accretion
Deposition
Fluctuations
Gravitational lenses
Luminosity
Neutron flux
Neutron stars
Neutrons
Pulsars
Radiation
Stellar surfaces
X rays
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Summary:Abstract The luminosity of accreting magnetized neutron stars can largely exceed the Eddington value due to appearance of accretion columns. The height of the columns can be comparable to the neutron star radius. The columns produce the X-rays detected by the observer directly and illuminate the stellar surface, which reprocesses the X-rays and causes additional component of the observed flux. The geometry of the column and the illuminated part of the surface determine the radiation beaming. Curved space–time affects the angular flux distribution. We construct a simple model of the beam patterns formed by direct and reflected flux from the column. We take into account the possibility of appearance of accretion columns, whose height is comparable to the neutron star radius. We argue that depending on the compactness of the star, the flux from the column can be either strongly amplified due to gravitational lensing, or significantly reduced due to column eclipse by the star. The eclipses of high accretion columns result in specific features in pulse profiles. Their detection can put constraints on the neutron star radius. We speculate that column eclipses are observed in X-ray pulsar V 0332+53, leading us to the conclusion of large neutron star radius in this system (∼15 km if M ∼ 1.4 M⊙). We point out that the beam pattern can be strongly affected by scattering in the accretion channel at high luminosity, which has to be taken into account in the models reproducing the pulse profiles.
ISSN:0035-8711
1365-2966