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The Low Quiescent X-Ray Luminosity of the Transient X-Ray Burster EXO 1747–214

We report on X-ray and optical observations of the X-ray burster EXO 1747-214. This source is an X-ray transient, and its only known outburst was observed in 1984 1985 by the EXOSAT satellite. We reanalyzed the EXOSAT data to derive the source position, column density, and a distance upper limit usi...

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Bibliographic Details
Published in:The Astrophysical journal 2005-12, Vol.635 (2), p.1233-1238
Main Authors: Tomsick, John A, Gelino, Dawn M, Kaaret, Philip
Format: Article
Language:English
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Summary:We report on X-ray and optical observations of the X-ray burster EXO 1747-214. This source is an X-ray transient, and its only known outburst was observed in 1984 1985 by the EXOSAT satellite. We reanalyzed the EXOSAT data to derive the source position, column density, and a distance upper limit using its peak X-ray burst flux. We observed the EXO 1747-214 field in 2003 July with the Chandra X-Ray Observatory to search for the quiescent counterpart. We found one possible candidate just outside the EXOSAT error circle, but we cannot rule out the possibility that the source is unrelated to EXO 1747-214. Our conclusion is that the upper limit on the unabsorbed 0.3 8 keV luminosity is L < 7 x 10(31) ergs s(-1), making EXO 1747-214 one of the faintest neutron star transients in quiescence. We compare this luminosity upper limit to the quiescent luminosities of 19 neutron star and 14 black hole systems and discuss the results in the context of the differences between neutron stars and black holes. Based on the theory of deep crustal heating suggested by Brown and coworkers, the luminosity implies an outburst recurrence time of > 1300 yr unless some form of enhanced cooling occurs within the neutron star. The position of the possible X-ray counterpart is consistent with three blended optical/IR sources with R magnitudes between 19.4 and 19.8 and J magnitudes between 17.2 and 17.6. One of these sources could be the quiescent optical/IR counterpart of EXO 1747-214.
ISSN:0004-637X
1538-4357
DOI:10.1086/497587