Simultaneous optical and X-ray detection of a thermonuclear burst in the 2024 outburst of EXO 0748-676
Simultaneous optical and X-ray detection of a thermonuclear burst in the 2024 outburst of EXO 0748-676
The neutron star low-mass X-ray binary, EXO 0748--676, recently returned to outburst after a $\sim$ 16 year-long quiescence. Since its return, there has been a global effort to capture the previously unseen rise of the source and to understand its somewhat early return to outburst, as it is typical for a source to spend longer in quiescence than in outburst. Here, we report on the simultaneous optical and X-ray detection of a type I X-ray burst, captured by XMM-Newton during a DDT observation on 30th June 2024. The data show 3 X-ray eclipses consistent with the known ephemeris and one type I X-ray burst at 60492.309 MJD. The X-ray burst is reprocessed into the optical band and captured by XMM-Newton's Optical Monitor during a 4399 s exposure with the B filter in image + fast mode. We determine that the optical peak lags the X-ray peak by 4.46 $\pm$ 1.71s. The optical and X-ray rise times are similar, but the optical decay timescale is shorter than the X-ray decay timescale. The reprocessing site is likely within a few light seconds of the X-ray emitting region, so the companion star, accretion disc and ablated material are all plausible.
astro-ph.HE
Knight, Amy H.
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Rhodes, Lauren
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Buisson, Douglas J. K.
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Matthews, James H.
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Segura, Noel Castro
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Ingram, Adam
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Middleton, Matthew
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Roberts, Timothy P.
978a10ee-243e-4eaa-8a91-91aa06d35dc6
Knight, Amy H.
394b1ae4-038f-43d2-bb70-96d030ef2c6e
Rhodes, Lauren
bd150bed-04ba-4830-8930-c24276f87e9b
Buisson, Douglas J. K.
9421aa20-e0f4-4b97-a6aa-a85eef5359e7
Matthews, James H.
7c623891-70ae-4808-8e75-83f7973cae35
Segura, Noel Castro
dc4af6e3-8d54-4b82-b2a1-b5cbdd48a8b0
Ingram, Adam
3df07271-4112-4435-8807-2df8ca504151
Middleton, Matthew
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Roberts, Timothy P.
978a10ee-243e-4eaa-8a91-91aa06d35dc6
[Unknown type: UNSPECIFIED]
Abstract
The neutron star low-mass X-ray binary, EXO 0748--676, recently returned to outburst after a $\sim$ 16 year-long quiescence. Since its return, there has been a global effort to capture the previously unseen rise of the source and to understand its somewhat early return to outburst, as it is typical for a source to spend longer in quiescence than in outburst. Here, we report on the simultaneous optical and X-ray detection of a type I X-ray burst, captured by XMM-Newton during a DDT observation on 30th June 2024. The data show 3 X-ray eclipses consistent with the known ephemeris and one type I X-ray burst at 60492.309 MJD. The X-ray burst is reprocessed into the optical band and captured by XMM-Newton's Optical Monitor during a 4399 s exposure with the B filter in image + fast mode. We determine that the optical peak lags the X-ray peak by 4.46 $\pm$ 1.71s. The optical and X-ray rise times are similar, but the optical decay timescale is shorter than the X-ray decay timescale. The reprocessing site is likely within a few light seconds of the X-ray emitting region, so the companion star, accretion disc and ablated material are all plausible.
Text
2411.03269v1
- Author's Original
More information
Accepted/In Press date: 5 November 2024
Additional Information:
6 Pages, 3 Figures, Accepted for Publication in MNRAS Letters
Keywords:
astro-ph.HE
Identifiers
Local EPrints ID: 496692
URI: http://eprints.soton.ac.uk/id/eprint/496692
PURE UUID: 5b3845f2-d30f-4194-a306-9c82d4bd4414
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Date deposited: 07 Jan 2025 22:03
Last modified: 06 Aug 2025 17:00
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Contributors
Author:
Amy H. Knight
Author:
Lauren Rhodes
Author:
Douglas J. K. Buisson
Author:
James H. Matthews
Author:
Noel Castro Segura
Author:
Adam Ingram
Author:
Timothy P. Roberts
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