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Clockwise evolution in the hardness-intensity diagram of the black hole X-ray binary Swift J1910.2-0546

Clockwise evolution in the hardness-intensity diagram of the black hole X-ray binary Swift J1910.2-0546
Clockwise evolution in the hardness-intensity diagram of the black hole X-ray binary Swift J1910.2-0546

We present a detailed study of optical data from the 2012 outburst of the candidate black hole X-ray binary Swift J1910.2-0546 using the Faulkes Telescope and Las Cumbres Observatory (LCO). We analyse the peculiar spectral state changes of Swift J1910.2-0546 in different energy bands, and characterize how the optical and UV emission correlates with the unusual spectral state evolution. Using various diagnostic tools like the optical/X-ray correlation and spectral energy distributions, we disentangle the different emission processes contributing towards the optical flux of the system. When Swift J1910.2-0546 transitions to the pure hard state, we find significant optical brightening of the source along with a dramatic change in the optical colour due to the onset of a jet during the spectral state transition. For the rest of the spectral states, the optical/UV emission is mostly dominated by an X-ray irradiated disc. From our high cadence optical study, we have discovered a putative modulation. Assuming that this modulation arises from a superhump, we suggest Swift J1910.2-0546 to have an orbital period of 2.25-2.47 h, which would make it the shortest orbital period black hole X-ray binary known to date. Finally, from the state transition luminosity of the source, we find that the distance to the source is likely to be ∼4.5-20.8 kpc, which is also supported by the comparative position of the source in the global optical/X-ray correlation of a large sample of black hole and neutron star X-ray binaries.

astro-ph.HE, ISM: jets and outflows, X-rays: individual: Swift J1910.2-0546, black hole physics, accretion, accretion discs
1365-2966
4543-4553
Saikia, Payaswini
7d02c74a-4aa7-43ee-b6b0-52ae4a0eaabc
Russell, David M.
d4fbb5ca-ed93-4006-8071-f76a555a4881
Pirbhoy, Saarah F.
ca4daf2d-a448-49d8-accb-58582d8d4c32
Baglio, M.C.
8bdcd5f5-449c-4d35-8d19-01c13dd5d010
Bramich, D.M.
6790dc44-da60-47ee-b08d-069c35121fa6
Alabarta, Kevin
8c164ccd-de85-4b2b-870b-7471ff95423b
Lewis, Fraser
f256b9a1-9c78-43ec-9a88-753497d20984
Charles, Phil
0429b380-0754-4dc1-8def-885c7fa6a086
Saikia, Payaswini
7d02c74a-4aa7-43ee-b6b0-52ae4a0eaabc
Russell, David M.
d4fbb5ca-ed93-4006-8071-f76a555a4881
Pirbhoy, Saarah F.
ca4daf2d-a448-49d8-accb-58582d8d4c32
Baglio, M.C.
8bdcd5f5-449c-4d35-8d19-01c13dd5d010
Bramich, D.M.
6790dc44-da60-47ee-b08d-069c35121fa6
Alabarta, Kevin
8c164ccd-de85-4b2b-870b-7471ff95423b
Lewis, Fraser
f256b9a1-9c78-43ec-9a88-753497d20984
Charles, Phil
0429b380-0754-4dc1-8def-885c7fa6a086

Saikia, Payaswini, Russell, David M., Pirbhoy, Saarah F., Baglio, M.C., Bramich, D.M., Alabarta, Kevin, Lewis, Fraser and Charles, Phil (2023) Clockwise evolution in the hardness-intensity diagram of the black hole X-ray binary Swift J1910.2-0546. Monthly Notices of the Royal Astronomical Society, 524 (3), 4543-4553, [stad2044]. (doi:10.1093/mnras/stad2044).

Record type: Article

Abstract

We present a detailed study of optical data from the 2012 outburst of the candidate black hole X-ray binary Swift J1910.2-0546 using the Faulkes Telescope and Las Cumbres Observatory (LCO). We analyse the peculiar spectral state changes of Swift J1910.2-0546 in different energy bands, and characterize how the optical and UV emission correlates with the unusual spectral state evolution. Using various diagnostic tools like the optical/X-ray correlation and spectral energy distributions, we disentangle the different emission processes contributing towards the optical flux of the system. When Swift J1910.2-0546 transitions to the pure hard state, we find significant optical brightening of the source along with a dramatic change in the optical colour due to the onset of a jet during the spectral state transition. For the rest of the spectral states, the optical/UV emission is mostly dominated by an X-ray irradiated disc. From our high cadence optical study, we have discovered a putative modulation. Assuming that this modulation arises from a superhump, we suggest Swift J1910.2-0546 to have an orbital period of 2.25-2.47 h, which would make it the shortest orbital period black hole X-ray binary known to date. Finally, from the state transition luminosity of the source, we find that the distance to the source is likely to be ∼4.5-20.8 kpc, which is also supported by the comparative position of the source in the global optical/X-ray correlation of a large sample of black hole and neutron star X-ray binaries.

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2307.08407v1 - Author's Original
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stad2044 - Accepted Manuscript
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e-pub ahead of print date: 11 July 2023
Published date: September 2023
Additional Information: Funding Information: The authors thank the anonymous referee for useful comments and suggestions. DMR and DMB acknowledge the support of the NYU Abu Dhabi Research Enhancement Fund under grant RE124. This work uses data from the Faulkes Telescope Project, which is an education partner of Las Cumbres Observatory (LCO). The Faulkes Telescopes are maintained and operated by LCO. This work also makes use of data supplied by the UK Swift Science Data Centre at the University of Leicester, and the MAXI data provided by RIKEN, JAXA, and the MAXI team. Publisher Copyright: © 2023 The Author(s). Published by Oxford University Press on behalf of Royal Astronomical Society.
Keywords: astro-ph.HE, ISM: jets and outflows, X-rays: individual: Swift J1910.2-0546, black hole physics, accretion, accretion discs
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Identifiers

Local EPrints ID: 479889
URI: http://eprints.soton.ac.uk/id/eprint/479889
DOI: doi:10.1093/mnras/stad2044
ISSN: 1365-2966
PURE UUID: ebc8a6e4-3e70-4d20-b119-9c8e3ef3a151

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Date deposited: 28 Jul 2023 16:42
Last modified: 17 Mar 2024 03:50

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Contributors

Author: Payaswini Saikia
Author: David M. Russell
Author: Saarah F. Pirbhoy
Author: M.C. Baglio
Author: D.M. Bramich
Author: Kevin Alabarta
Author: Fraser Lewis
Author: Phil Charles

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