Peculiarities of Super-Eddington Flares from the X-ray Pulsar LMC X-4 Based on NuSTAR Data

We present the results of our analysis of super-Eddington flares recorded fromthe X-ray pulsar LMCX-4 by theNuSTAR observatory in the energy range 3–79 keV. The pulsar spectrumis well described by the thermal Comptonization model (COMPTT) both in quiescence and during flares, when the peak luminosit...

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Bibliographic Details
Published in:Astronomy letters 2018-03, Vol.44 (3), p.149-161
Main Authors: Shtykovsky, A. E., Arefiev, V. A., Lutovinov, A. A., Molkov, S. V.
Format: Article
Language:English
Subjects:
Astronomy
Astrophysics and Astroparticles
Deposition
Energy
Flares
Luminosity
Observations and Techniques
Physics
Physics and Astronomy
Pulsars
X-ray astronomy
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Summary:We present the results of our analysis of super-Eddington flares recorded fromthe X-ray pulsar LMCX-4 by theNuSTAR observatory in the energy range 3–79 keV. The pulsar spectrumis well described by the thermal Comptonization model (COMPTT) both in quiescence and during flares, when the peak luminosity reaches L x ~ (2−4) × 10 39 erg s −1 . An important feature that has been investigated for the first time in this paper is that an increase in luminosity during flares by more than an order of magnitude is observed at energies below 25–30 keV, while at higher energies (30–70 keV) the spectrum shape and the source flux remain virtually unchanged. The increase in luminosity is accompanied by changes in the source pulse profile—in the energy range 3–40 keV it becomes approximately triangular and the pulsed fraction increaseswith rising energy, reaching 60–70%in the energy range 25–40 keV.We discuss possible changes in the geometry of the accretion column consistent with similar changes in the spectra and pulse profiles.
ISSN:1063-7737
1562-6873
DOI:10.1134/S1063773718030015