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Thermonuclear Type-I X-ray bursts and burst oscillations from the eclipsing AMXP Swift J1749.4-2807

Thermonuclear Type-I X-ray bursts and burst oscillations from the eclipsing AMXP Swift J1749.4-2807
Thermonuclear Type-I X-ray bursts and burst oscillations from the eclipsing AMXP Swift J1749.4-2807
Swift J1749.4-2807 is the only known eclipsing accreting millisecond X-ray pulsar. In this paper, we report on seven thermonuclear (Type-I) X-ray bursts observed by NICER during its 2021 outburst. The first six bursts show slow rises and long decays, indicative of mixed H/He fuel, whereas the last burst shows fast rise and decay, suggesting He-rich fuel. Time-resolved spectroscopy of the bursts revealed typical phenomenology (i.e. an increase in blackbody temperature during the burst rise, and steady decrease in the decay), however, they required a variable NH. We found that the values of NH during the bursts were roughly double those found in the fits of the persistent emission prior to each burst. We interpret this change in absorption as evidence of burst–disc interaction, which we observe due to the high inclination of the system. We searched for burst oscillations during each burst and detected a signal in the first burst at the known spin frequency of the neutron star (517.92 Hz). This is the first time burst oscillations have been detected from Swift J1749.4-2807. We further find that each X-ray burst occurs on top of an elevated persistent count rate. We performed time-resolved spectroscopy on the combined data of the bursts with sufficient statistics (i.e. the clearest examples of this phenomenon) and found that the blackbody parameters evolve to hotter temperatures closer to the onset of the bursts. We interpret this as a consequence of an unusual marginally stable burning process similar to that seen through mHz QPOs.
astro-ph.HE, stars: individual (Swift J1749.4-2807), X-rays: binaries, stars: neutron, X-rays: bursts
1365-2966
2477-2488
Albayati, A.C.
a37b49d4-f72d-407f-b7dc-ee3ce0dccbd2
Bult, P.
875075f1-179b-4de0-8676-86bb7dc37879
Altamirano, D.
d5ccdb09-0b71-4303-9538-05b467be075b
Chenevez, J.
25a95602-9e3d-4553-a442-5f4317ff2cd6
Guillot, S.
5d521f37-303f-4a40-9f85-fbb75b960f12
Güver, T.
07002e85-340b-4635-8b33-0996ecf66d8d
Jaisawal, G.K.
4d5dcd39-0881-426d-8ad7-f378238405ae
Malacaria, C.
98e428d9-76cc-4cb2-9451-dbdc956505b1
Mancuso, G.C.
ac7509c1-5491-4d83-8835-05ae6ba1db01
Marino, A.
1cb532db-41e4-40d9-b760-452e5b754749
Ng, M.
f15ef16e-4b09-42ab-a8c8-5fca42b5b885
Sanna, A.
b925b305-171b-461f-bbf7-1c8fe246293c
Strohmayer, T.E.
491eee42-6b4e-4dcc-a7cd-2a36ac992a7d
Albayati, A.C.
a37b49d4-f72d-407f-b7dc-ee3ce0dccbd2
Bult, P.
875075f1-179b-4de0-8676-86bb7dc37879
Altamirano, D.
d5ccdb09-0b71-4303-9538-05b467be075b
Chenevez, J.
25a95602-9e3d-4553-a442-5f4317ff2cd6
Guillot, S.
5d521f37-303f-4a40-9f85-fbb75b960f12
Güver, T.
07002e85-340b-4635-8b33-0996ecf66d8d
Jaisawal, G.K.
4d5dcd39-0881-426d-8ad7-f378238405ae
Malacaria, C.
98e428d9-76cc-4cb2-9451-dbdc956505b1
Mancuso, G.C.
ac7509c1-5491-4d83-8835-05ae6ba1db01
Marino, A.
1cb532db-41e4-40d9-b760-452e5b754749
Ng, M.
f15ef16e-4b09-42ab-a8c8-5fca42b5b885
Sanna, A.
b925b305-171b-461f-bbf7-1c8fe246293c
Strohmayer, T.E.
491eee42-6b4e-4dcc-a7cd-2a36ac992a7d

Albayati, A.C., Bult, P., Altamirano, D., Chenevez, J., Guillot, S., Güver, T., Jaisawal, G.K., Malacaria, C., Mancuso, G.C., Marino, A., Ng, M., Sanna, A. and Strohmayer, T.E. (2023) Thermonuclear Type-I X-ray bursts and burst oscillations from the eclipsing AMXP Swift J1749.4-2807. Monthly Notices of the Royal Astronomical Society, 524 (2), 2477-2488. (doi:10.1093/mnras/stad1892).

Record type: Article

Abstract

Swift J1749.4-2807 is the only known eclipsing accreting millisecond X-ray pulsar. In this paper, we report on seven thermonuclear (Type-I) X-ray bursts observed by NICER during its 2021 outburst. The first six bursts show slow rises and long decays, indicative of mixed H/He fuel, whereas the last burst shows fast rise and decay, suggesting He-rich fuel. Time-resolved spectroscopy of the bursts revealed typical phenomenology (i.e. an increase in blackbody temperature during the burst rise, and steady decrease in the decay), however, they required a variable NH. We found that the values of NH during the bursts were roughly double those found in the fits of the persistent emission prior to each burst. We interpret this change in absorption as evidence of burst–disc interaction, which we observe due to the high inclination of the system. We searched for burst oscillations during each burst and detected a signal in the first burst at the known spin frequency of the neutron star (517.92 Hz). This is the first time burst oscillations have been detected from Swift J1749.4-2807. We further find that each X-ray burst occurs on top of an elevated persistent count rate. We performed time-resolved spectroscopy on the combined data of the bursts with sufficient statistics (i.e. the clearest examples of this phenomenon) and found that the blackbody parameters evolve to hotter temperatures closer to the onset of the bursts. We interpret this as a consequence of an unusual marginally stable burning process similar to that seen through mHz QPOs.

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Accepted/In Press date: 19 June 2023
e-pub ahead of print date: 22 June 2023
Published date: 1 September 2023
Additional Information: Funding Information: AA thanks the referee for making helpful suggestions that improved the paper. AA also thanks M. & L. Albayati for their support. DA acknowledges support from the Royal Society. SG acknowledges the support of the CNES. TG has been supported in part by the Turkish Republic, Presidency of Strategy and Budget project, 2016K121370. GCM was partially supported by PIP 0113 (CONICET) and received financial support from PICT-2017-2865 (ANPCyT). AM is supported by the H2020 ERC Consolidator Grant ‘MAGNESIA’ under grant agreement number 817661 (PI: Rea) and the National Spanish grant PGC2018-095512-BI00. AM is also partially supported by the program Unidad de Excelencia Maria de Maeztu CEX2020-001058-M, and by the PHAROS COST Action (number CA16214). Publisher Copyright: © 2023 The Author(s). Published by Oxford University Press on behalf of Royal Astronomical Society.
Keywords: astro-ph.HE, stars: individual (Swift J1749.4-2807), X-rays: binaries, stars: neutron, X-rays: bursts
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Identifiers

Local EPrints ID: 480481
URI: http://eprints.soton.ac.uk/id/eprint/480481
DOI: doi:10.1093/mnras/stad1892
ISSN: 1365-2966
PURE UUID: 483ae222-8d78-47aa-b6c1-53b58ac5c3d9
ORCID for D. Altamirano: ORCID iD orcid.org/0000-0002-3422-0074

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Date deposited: 03 Aug 2023 16:32
Last modified: 10 Apr 2024 01:49

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Contributors

Author: A.C. Albayati
Author: P. Bult
Author: D. Altamirano ORCID iD
Author: J. Chenevez
Author: S. Guillot
Author: T. Güver
Author: G.K. Jaisawal
Author: C. Malacaria
Author: G.C. Mancuso
Author: A. Marino
Author: M. Ng
Author: A. Sanna
Author: T.E. Strohmayer

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