On the Impact of an Intermediate Duration X-Ray Burst on the Accretion Environment in IGR J17062–6143

On the Impact of an Intermediate Duration X-Ray Burst on the Accretion Environment in IGR J17062–6143

We report on a spectroscopic analysis of the X-ray emission from IGR J17062−6143 in the after-math of its June 2020 intermediate duration Type I X-ray burst. Using the Neutron Star Interior Composition Explorer, we started observing the source three hours after the burst was detected with MAXI/GSC,...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 920; no. 1; pp. 59 - 69
Main Authors: Bult, Peter, Altamirano, Diego, Arzoumanian, Zaven, Ballantyne, David R., Chenevez, Jerome, Fabian, Andrew C., Gendreau, Keith C., Homan, Jeroen, Jaisawal, Gaurava K., Malacaria, Christian, Miller, Jon M., Parker, Michael L., Strohmayer, Tod E.
Format: Journal Article
Language:English
Published: Goddard Space Flight Center The American Astronomical Society 01-10-2021
American Astronomical Society
IOP Publishing
Subjects:
Absorption
Accretion disks
Ashes
Astrophysics
Calcium isotopes
Corona
Emission analysis
Emissions
Energy spectra
Fluctuations
Irradiation
Low-mass x-ray binary stars
Neutron stars
Spectroscopic analysis
Stellar surfaces
X-ray bursts
X-ray emissions
X-ray fluxes
X-rays
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Summary:We report on a spectroscopic analysis of the X-ray emission from IGR J17062−6143 in the after-math of its June 2020 intermediate duration Type I X-ray burst. Using the Neutron Star Interior Composition Explorer, we started observing the source three hours after the burst was detected with MAXI/GSC, and monitored the source for the subsequent twelve days. We observed the tail end of the X-ray burst cooling phase, and find that the X-ray flux is severely depressed relative to its historic value for a three day period directly following the burst. We interpret this intensity dip as the inner accretion disk gradually restoring itself after being perturbed by the burst irradiation. Superimposed on this trend we observed a 1.5 d interval during which the X-ray flux is sharply lower than the wider trend. This drop in flux could be isolated to the non-thermal components in the energy spectrum, suggesting that it may be caused by an evolving corona. Additionally, we detected a 3.4 keV absorption line at 6.3σsignificance in a single 472 s observation while the burst emission was still bright. We tentatively identify the line as a gravitationally redshifted absorption line from burning ashes on the stellar surface, possibly associated with 40Ca or 44Ti.
Bibliography:High-Energy Phenomena and Fundamental Physics
AAS32647
GSFC
Goddard Space Flight Center
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ac18c4