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New compact object binary populations with precision astrometry

New compact object binary populations with precision astrometry
New compact object binary populations with precision astrometry
Compact object binaries (a black hole or a neutron star orbiting a non-degenerate stellar companion) are key to our understanding of late massive star evolution, in addition to being some of the best probes of extreme gravity and accretion physics. Gaia has opened the door to astrometric studies of these systems, enabling geometric distance measurements, kinematic estimation, and the ability to find new previously unknown systems through measurement of binary orbital elements. Particularly puzzling are newly found massive black holes in wide orbits (~AU or more) whose evolutionary history is difficult to explain. Astrometric identification of such binaries is challenging for Gaia, with only two such examples currently known. Roman's enormous grasp, superb sensitivity, sharp PSF and controlled survey strategy can prove to be a game-changer in this field, extending astrometric studies of compact object binaries several mag deeper than Gaia. We propose to use the microlensing Galactic Bulge Time Domain Survey to identify new wide-orbit black hole compact object binaries, determine their prevalence and their spatial distribution, thus opening up new parameter space in binary population studies....
Gandhi, P.
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Dashwood Brown, C.
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Zhao, Y.
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El-Badry, K.
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Maccarone, T.J.
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Knigge, C.
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Anderson, J.
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Middleton, M.
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Miller-Jones, J.C.A.
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Gandhi, P.
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Dashwood Brown, C.
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Zhao, Y.
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El-Badry, K.
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Maccarone, T.J.
c2f1d87b-e2ef-4e33-b09f-a2861d917ea8
Knigge, C.
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Anderson, J.
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Middleton, M.
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Miller-Jones, J.C.A.
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Gandhi, P., Dashwood Brown, C., Zhao, Y., El-Badry, K., Maccarone, T.J., Knigge, C., Anderson, J., Middleton, M. and Miller-Jones, J.C.A. (2023) New compact object binary populations with precision astrometry 9pp. (doi:10.48550/arXiv.2306.16479).

Record type: Monograph (Working Paper)

Abstract

Compact object binaries (a black hole or a neutron star orbiting a non-degenerate stellar companion) are key to our understanding of late massive star evolution, in addition to being some of the best probes of extreme gravity and accretion physics. Gaia has opened the door to astrometric studies of these systems, enabling geometric distance measurements, kinematic estimation, and the ability to find new previously unknown systems through measurement of binary orbital elements. Particularly puzzling are newly found massive black holes in wide orbits (~AU or more) whose evolutionary history is difficult to explain. Astrometric identification of such binaries is challenging for Gaia, with only two such examples currently known. Roman's enormous grasp, superb sensitivity, sharp PSF and controlled survey strategy can prove to be a game-changer in this field, extending astrometric studies of compact object binaries several mag deeper than Gaia. We propose to use the microlensing Galactic Bulge Time Domain Survey to identify new wide-orbit black hole compact object binaries, determine their prevalence and their spatial distribution, thus opening up new parameter space in binary population studies....

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2306.16479v1 - Version of Record
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Published date: 28 June 2023
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Identifiers

Local EPrints ID: 490712
URI: http://eprints.soton.ac.uk/id/eprint/490712
DOI: doi:10.48550/arXiv.2306.16479
PURE UUID: 64367505-d1cb-4404-a538-33a6f8a18c84
ORCID for P. Gandhi: ORCID iD orcid.org/0000-0003-3105-2615

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Date deposited: 04 Jun 2024 16:37
Last modified: 05 Jun 2024 01:47

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Contributors

Author: P. Gandhi ORCID iD
Author: C. Dashwood Brown
Author: Y. Zhao
Author: K. El-Badry
Author: T.J. Maccarone
Author: C. Knigge
Author: J. Anderson
Author: M. Middleton
Author: J.C.A. Miller-Jones

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