Astronomy and Astrophysics – Astronomy
Scientific paper
Aug 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010aj....140..595w&link_type=abstract
The Astronomical Journal, Volume 140, Issue 2, pp. 595-601 (2010).
Astronomy and Astrophysics
Astronomy
3
Binaries: Eclipsing, Stars: Chemically Peculiar, Stars: Individual: Epsilon Aurigae
Scientific paper
We report on an XMM-Newton observation of the unusual, long period (F0 supergiant + cool disk companion) eclipsing binary star epsilon Aurigæ observed in X-rays prior to the onset of the 2009-2011 eclipse phase. While it appears certain that a disk-like body is obscuring the star, it remains unclear what kind of object is at the center of the disk. The XMM-Newton observation had a duration of ~25 ks. The X-ray image does not show a source at the optical position of the star. We have determined a limiting X-ray flux of about 2.5 × 10-15 erg cm-2 s-1. This flux is equivalent to a luminosity of about log LX ~ 29.3-29.7 erg s-1 for an unabsorbed source at the assumed distance, estimated to be between 650 and 1300 pc. The direct emission from an otherwise unobscured primary is excluded at a level above LX ~ 4 × 1029 erg s-1. We explore the physical constraints that these limits put on the primary and several proposed models for the system secondary. For a black hole, we find that the direct absorption required by the disk is approximately N H >= 1025 cm-2. While not unreasonable for a protoplanetary disk, the lack of secondary X-rays makes this model unlikely. For high-mass models, in which the disk harbors pre-main-sequence stars, we find a minimum disk absorption of N H >= 1023 cm-2. Since this is not unlikely for a protoplanetary disk, this is not a significant constraint. For low-mass models, in which the disk harbors older stars, the known line-of-sight absorption is nearly enough to account for the non-detection. The data do not discriminate between these models.
Guinan Edward
Pillitteri Ignazio
Stencel Robert
Wolk Scott J.
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