Evidence for a dynamic corona in the short-term time lags of black hole X-ray binary MAXI J1820+070
Evidence for a dynamic corona in the short-term time lags of black hole X-ray binary MAXI J1820+070
In X-ray observations of hard state black hole X-ray binaries, rapid variations in accretion disc and coronal power-law emission are correlated and show Fourier-frequency-dependent time lags. On short (~0.1 s) time-scales, these lags are thought to be due to reverberation and therefore may depend strongly on the geometry of the corona. Low-frequency quasi-periodic oscillations (QPOs) are variations in X-ray flux that have been suggested to arise because of geometric changes in the corona, possibly due to General Relativistic Lense-Thirring precession. Therefore one might expect the short-term time lags to vary on the QPO time-scale. We performed novel spectral-timing analyses on NICER observations of the black hole X-ray binary MAXI J1820+070 during the hard state of its outburst in 2018 to investigate how the short-term time lags between a disc-dominated and a coronal power-law-dominated energy band vary on different time-scales. Our method can distinguish between variability due to the QPO and broadband noise, and we find a linear correlation between the power-law flux and lag amplitude that is strongest at the QPO frequency. We also introduce a new method to resolve the QPO signal and determine the QPO-phase-dependence of the flux and lag variations, finding that both are very similar. Our results are consistent with a geometric origin of QPOs, but also provide evidence for a dynamic corona with a geometry varying in a similar way over a broad range of time-scales, not just the QPO time-scale.
astro-ph.HE
558–576
Bollemeijer, Niek
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Uttley, Phil
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Basak, Arkadip
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Ingram, Adam
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Eijnden, Jakob van den
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Alabarta, Kevin
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Altamirano, Diego
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Arzoumanian, Zaven
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Buisson, Douglas J.K.
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Fabian, Andrew C.
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Ferrara, Elizabeth
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Gendreau, Keith
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Homan, Jeroen
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Kara, Erin
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Markwardt, Craig
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Remillard, Ronald A.
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Sanna, Andrea
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Steiner, James F.
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Tombesi, Francesco
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Wang, Jingyi
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Wang, Yanan
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Zoghbi, Abderahmen
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February 2024
Bollemeijer, Niek
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Uttley, Phil
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Basak, Arkadip
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Ingram, Adam
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Eijnden, Jakob van den
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Alabarta, Kevin
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Altamirano, Diego
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Arzoumanian, Zaven
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Buisson, Douglas J.K.
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Fabian, Andrew C.
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Ferrara, Elizabeth
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Gendreau, Keith
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Homan, Jeroen
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Kara, Erin
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Markwardt, Craig
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Remillard, Ronald A.
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Sanna, Andrea
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Steiner, James F.
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Tombesi, Francesco
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Wang, Jingyi
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Wang, Yanan
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Zoghbi, Abderahmen
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Bollemeijer, Niek, Uttley, Phil, Basak, Arkadip, Ingram, Adam, Eijnden, Jakob van den, Alabarta, Kevin, Altamirano, Diego, Arzoumanian, Zaven, Buisson, Douglas J.K., Fabian, Andrew C., Ferrara, Elizabeth, Gendreau, Keith, Homan, Jeroen, Kara, Erin, Markwardt, Craig, Remillard, Ronald A., Sanna, Andrea, Steiner, James F., Tombesi, Francesco, Wang, Jingyi, Wang, Yanan and Zoghbi, Abderahmen
(2024)
Evidence for a dynamic corona in the short-term time lags of black hole X-ray binary MAXI J1820+070.
Monthly Notices of the Royal Astronomical Society, 528 (1), .
(doi:10.1093/mnras/stad3912).
Abstract
In X-ray observations of hard state black hole X-ray binaries, rapid variations in accretion disc and coronal power-law emission are correlated and show Fourier-frequency-dependent time lags. On short (~0.1 s) time-scales, these lags are thought to be due to reverberation and therefore may depend strongly on the geometry of the corona. Low-frequency quasi-periodic oscillations (QPOs) are variations in X-ray flux that have been suggested to arise because of geometric changes in the corona, possibly due to General Relativistic Lense-Thirring precession. Therefore one might expect the short-term time lags to vary on the QPO time-scale. We performed novel spectral-timing analyses on NICER observations of the black hole X-ray binary MAXI J1820+070 during the hard state of its outburst in 2018 to investigate how the short-term time lags between a disc-dominated and a coronal power-law-dominated energy band vary on different time-scales. Our method can distinguish between variability due to the QPO and broadband noise, and we find a linear correlation between the power-law flux and lag amplitude that is strongest at the QPO frequency. We also introduce a new method to resolve the QPO signal and determine the QPO-phase-dependence of the flux and lag variations, finding that both are very similar. Our results are consistent with a geometric origin of QPOs, but also provide evidence for a dynamic corona with a geometry varying in a similar way over a broad range of time-scales, not just the QPO time-scale.
Text
2312.09835v1
- Accepted Manuscript
More information
Accepted/In Press date: 15 December 2023
e-pub ahead of print date: 20 December 2023
Published date: February 2024
Additional Information:
14 figures, 3 tables, accepted for publication in MNRAS
Keywords:
astro-ph.HE
Identifiers
Local EPrints ID: 487365
URI: http://eprints.soton.ac.uk/id/eprint/487365
ISSN: 1365-2966
PURE UUID: 53c50d6f-580f-4e03-8546-2fe4f935182d
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Date deposited: 20 Feb 2024 00:04
Last modified: 11 Sep 2025 02:42
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Contributors
Author:
Niek Bollemeijer
Author:
Phil Uttley
Author:
Arkadip Basak
Author:
Adam Ingram
Author:
Jakob van den Eijnden
Author:
Kevin Alabarta
Author:
Zaven Arzoumanian
Author:
Douglas J.K. Buisson
Author:
Andrew C. Fabian
Author:
Elizabeth Ferrara
Author:
Keith Gendreau
Author:
Jeroen Homan
Author:
Erin Kara
Author:
Craig Markwardt
Author:
Ronald A. Remillard
Author:
Andrea Sanna
Author:
James F. Steiner
Author:
Francesco Tombesi
Author:
Jingyi Wang
Author:
Yanan Wang
Author:
Abderahmen Zoghbi
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