Discovery of the galactic high-mass gamma-ray binary 4FGL J1405.1-6119
Discovery of the galactic high-mass gamma-ray binary 4FGL J1405.1-6119
We report the identification from multiwavelength observations of the Fermi Large Area Telescope (LAT) source 4FGL J1405.1−6119 (=3FGL J1405.4−6119) as a high-mass gamma-ray binary. Observations with the LAT show that gamma-ray emission from the system is modulated at a period of 13.7135 ± 0.0019 days, with the presence of two maxima per orbit with different spectral properties. X-ray observations using the Neil Gehrels Swift Observatory X-ray Telescope show that X-ray emission is also modulated at this period, but with a single maximum that is closer to the secondary lower-energy gamma-ray maximum. A radio source, coincident with the X-ray source is also found from Australia Telescope Compact Array observations, and the radio emission is modulated on the gamma-ray period with similar phasing to the X-ray emission. A large degree of interstellar obscuration severely hampers optical observations, but a near-infrared counterpart is found. Near-infrared spectroscopy indicates an O6 III spectral classification. This is the third gamma-ray binary to be discovered with the Fermi-LAT from periodic modulation of the gamma-ray emission, the other two sources also have early O star, rather than Be star, counterparts. We consider at what distances we can detect such modulated gamma-ray emission with the LAT, and examine constraints on the gamma-ray binary population of the Milky Way.
Corbet, R.H.D.
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Chomiuk, L.
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Coe, M.J.
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Coley, J.B.
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Dubus, G.
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Edwards, P.G.
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Martin, P.
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McBride, V.A.
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Stevens, J.
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Strader, J.
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Townsend, L.J.
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Corbet, R.H.D.
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Chomiuk, L.
71fe2d37-8846-4d13-8bcd-b8459a57aa93
Coe, M.J.
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Coley, J.B.
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Dubus, G.
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Edwards, P.G.
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Martin, P.
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McBride, V.A.
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Stevens, J.
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Strader, J.
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Townsend, L.J.
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Corbet, R.H.D., Chomiuk, L., Coe, M.J., Coley, J.B., Dubus, G., Edwards, P.G., Martin, P., McBride, V.A., Stevens, J., Strader, J. and Townsend, L.J.
(2019)
Discovery of the galactic high-mass gamma-ray binary 4FGL J1405.1-6119.
The Astrophysical Journal, 884 (1).
(doi:10.3847/1538-4357/ab3e32).
Abstract
We report the identification from multiwavelength observations of the Fermi Large Area Telescope (LAT) source 4FGL J1405.1−6119 (=3FGL J1405.4−6119) as a high-mass gamma-ray binary. Observations with the LAT show that gamma-ray emission from the system is modulated at a period of 13.7135 ± 0.0019 days, with the presence of two maxima per orbit with different spectral properties. X-ray observations using the Neil Gehrels Swift Observatory X-ray Telescope show that X-ray emission is also modulated at this period, but with a single maximum that is closer to the secondary lower-energy gamma-ray maximum. A radio source, coincident with the X-ray source is also found from Australia Telescope Compact Array observations, and the radio emission is modulated on the gamma-ray period with similar phasing to the X-ray emission. A large degree of interstellar obscuration severely hampers optical observations, but a near-infrared counterpart is found. Near-infrared spectroscopy indicates an O6 III spectral classification. This is the third gamma-ray binary to be discovered with the Fermi-LAT from periodic modulation of the gamma-ray emission, the other two sources also have early O star, rather than Be star, counterparts. We consider at what distances we can detect such modulated gamma-ray emission with the LAT, and examine constraints on the gamma-ray binary population of the Milky Way.
Text
Discovery of the Galactic High-mass Gamma-Ray Binary 4FGL J1405.1-6119
- Accepted Manuscript
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Accepted/In Press date: 22 August 2019
e-pub ahead of print date: 14 October 2019
Additional Information:
arXiv is am
Identifiers
Local EPrints ID: 435829
URI: http://eprints.soton.ac.uk/id/eprint/435829
ISSN: 0004-637X
PURE UUID: ae7257cb-1d54-477a-acbe-b563c5cc7714
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Date deposited: 21 Nov 2019 17:30
Last modified: 17 Mar 2024 05:02
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Contributors
Author:
R.H.D. Corbet
Author:
L. Chomiuk
Author:
J.B. Coley
Author:
G. Dubus
Author:
P.G. Edwards
Author:
P. Martin
Author:
V.A. McBride
Author:
J. Stevens
Author:
J. Strader
Author:
L.J. Townsend
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