An explanation for long flares from extragalactic globular cluster X-ray sources
An explanation for long flares from extragalactic globular cluster X-ray sources
Repeatedly flaring X-ray binaries have recently been discovered in NGC 4697 by Sivakoff and collaborators. We show that these flares can be explained as the result of eccentric binaries in globular clusters which accrete more rapidly at the periastron than during the rest of the binary orbit. We show that theoretical time-scales for producing eccentricities and circularizing the binaries are consistent with what is needed to produce the observed population of flaring sources, although the circularization time-scales are highly uncertain on both observational and theoretical grounds. This model makes two clear theoretical predictions: (i) the flares should be seen to be strictly periodic if adequate sampling is provided and that periodicity should be of approximately 15 h; and (ii) this class of flaring behaviour should be seen only in globular cluster sources and predominantly in the densest globular clusters. We also test the model for producing eccentricities through fly-bys of a third star near the binary in a globular cluster against a much larger data base of millisecond pulsar observations than has been used in past work and find that the theoretical cross-sections for producing eccentricity in binaries are in reasonable agreement with most of the data, provided that the pulsar ages are about 4 × 109 yr.
stellar dynamics, binaries: close, galaxies: star clusters, X-rays: binaries
971-976
Maccarone, Thomas J.
27e6101c-8fa4-41db-ba75-d2ee3d1a0c53
December 2005
Maccarone, Thomas J.
27e6101c-8fa4-41db-ba75-d2ee3d1a0c53
Maccarone, Thomas J.
(2005)
An explanation for long flares from extragalactic globular cluster X-ray sources.
Monthly Notices of the Royal Astronomical Society, 364 (3), .
(doi:10.1111/j.1365-2966.2005.09623.x).
Abstract
Repeatedly flaring X-ray binaries have recently been discovered in NGC 4697 by Sivakoff and collaborators. We show that these flares can be explained as the result of eccentric binaries in globular clusters which accrete more rapidly at the periastron than during the rest of the binary orbit. We show that theoretical time-scales for producing eccentricities and circularizing the binaries are consistent with what is needed to produce the observed population of flaring sources, although the circularization time-scales are highly uncertain on both observational and theoretical grounds. This model makes two clear theoretical predictions: (i) the flares should be seen to be strictly periodic if adequate sampling is provided and that periodicity should be of approximately 15 h; and (ii) this class of flaring behaviour should be seen only in globular cluster sources and predominantly in the densest globular clusters. We also test the model for producing eccentricities through fly-bys of a third star near the binary in a globular cluster against a much larger data base of millisecond pulsar observations than has been used in past work and find that the theoretical cross-sections for producing eccentricity in binaries are in reasonable agreement with most of the data, provided that the pulsar ages are about 4 × 109 yr.
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Published date: December 2005
Keywords:
stellar dynamics, binaries: close, galaxies: star clusters, X-rays: binaries
Identifiers
Local EPrints ID: 79519
URI: http://eprints.soton.ac.uk/id/eprint/79519
ISSN: 1365-2966
PURE UUID: 2a18ce75-43f6-4cb8-85ae-54a131d778be
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Date deposited: 16 Mar 2010
Last modified: 14 Mar 2024 00:30
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Author:
Thomas J. Maccarone
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