The NICER "Reverberation Machine": a systematic study of time lags in black hole X-ray binaries show affiliations
The NICER "Reverberation Machine": a systematic study of time lags in black hole X-ray binaries show affiliations
We perform the first systematic search of all NICER archival observations of black hole (and candidate) low-mass X-ray binaries for signatures of reverberation. Reverberation lags result from the light travel time difference between the direct coronal emission and the reflected disk component, and therefore their properties are a useful probe of the disk-corona geometry. We detect new signatures of reverberation lags in eight sources, increasing the total sample from three to 11, and study the evolution of reverberation lag properties as the sources evolve in outbursts. We find that in all of the nine sources with more than one reverberation lag detection, the reverberation lags become longer and dominate at lower Fourier frequencies during the hard-to-soft state transition. This result shows that the evolution in reverberation lags is a global property of the state transitions of black hole low-mass X-ray binaries, which is valuable in constraining models of such state transitions. The reverberation lag evolution suggests that the corona is the base of a jet that vertically expands and/or gets ejected during state transition. We also discover that in the hard state, the reverberation lags get shorter, just as the quasiperiodic oscillations (QPOs) move to higher frequencies, but then in the state transition, while the QPOs continue to higher frequencies, the lags get longer. We discuss the implications of the coronal geometry and physical models of QPOs in light of this new finding.
Wang, Jingyi
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Kara, Erin
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Lucchini, Matteo
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Ingram, Adam
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van der Klis, Michiel
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Mastroserio, Guglielmo
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García, Javier A.
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Dauser, Thomas
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Connors, Riley
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Fabian, Andrew C.
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Steiner, James F.
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Remillard, Ron A.
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Cackett, Edward M.
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Uttley, Phil
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Altamirano, Diego
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2 May 2022
Wang, Jingyi
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Kara, Erin
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Lucchini, Matteo
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Ingram, Adam
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van der Klis, Michiel
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Mastroserio, Guglielmo
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García, Javier A.
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Dauser, Thomas
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Connors, Riley
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Fabian, Andrew C.
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Steiner, James F.
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Remillard, Ron A.
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Cackett, Edward M.
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Uttley, Phil
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Altamirano, Diego
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Wang, Jingyi, Kara, Erin, Lucchini, Matteo, Ingram, Adam, van der Klis, Michiel, Mastroserio, Guglielmo, García, Javier A., Dauser, Thomas, Connors, Riley, Fabian, Andrew C., Steiner, James F., Remillard, Ron A., Cackett, Edward M., Uttley, Phil and Altamirano, Diego
(2022)
The NICER "Reverberation Machine": a systematic study of time lags in black hole X-ray binaries show affiliations.
Astrophysical Journal, 930 (1), [18].
(doi:10.3847/1538-4357/ac6262).
Abstract
We perform the first systematic search of all NICER archival observations of black hole (and candidate) low-mass X-ray binaries for signatures of reverberation. Reverberation lags result from the light travel time difference between the direct coronal emission and the reflected disk component, and therefore their properties are a useful probe of the disk-corona geometry. We detect new signatures of reverberation lags in eight sources, increasing the total sample from three to 11, and study the evolution of reverberation lag properties as the sources evolve in outbursts. We find that in all of the nine sources with more than one reverberation lag detection, the reverberation lags become longer and dominate at lower Fourier frequencies during the hard-to-soft state transition. This result shows that the evolution in reverberation lags is a global property of the state transitions of black hole low-mass X-ray binaries, which is valuable in constraining models of such state transitions. The reverberation lag evolution suggests that the corona is the base of a jet that vertically expands and/or gets ejected during state transition. We also discover that in the hard state, the reverberation lags get shorter, just as the quasiperiodic oscillations (QPOs) move to higher frequencies, but then in the state transition, while the QPOs continue to higher frequencies, the lags get longer. We discuss the implications of the coronal geometry and physical models of QPOs in light of this new finding.
Text
Wang_2022_ApJ_930_18
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Accepted/In Press date: 28 March 2022
Published date: 2 May 2022
Identifiers
Local EPrints ID: 500633
URI: http://eprints.soton.ac.uk/id/eprint/500633
ISSN: 0004-637X
PURE UUID: fd8d98f0-b797-47b4-a8a9-d99cc91bed89
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Date deposited: 07 May 2025 16:43
Last modified: 22 Aug 2025 02:10
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Contributors
Author:
Jingyi Wang
Author:
Erin Kara
Author:
Matteo Lucchini
Author:
Adam Ingram
Author:
Michiel van der Klis
Author:
Guglielmo Mastroserio
Author:
Javier A. García
Author:
Thomas Dauser
Author:
Riley Connors
Author:
Andrew C. Fabian
Author:
James F. Steiner
Author:
Ron A. Remillard
Author:
Edward M. Cackett
Author:
Phil Uttley
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