A characteristic optical variability time scale in astrophysical accretion disks
A characteristic optical variability time scale in astrophysical accretion disks
Accretion disks around supermassive black holes in active galactic nuclei produce continuum radiation at ultraviolet and optical wavelengths. Physical processes in the accretion flow lead to stochastic variability of this emission on a wide range of time scales. We measured the optical continuum variability observed in 67 active galactic nuclei and the characteristic time scale at which the variability power spectrum flattens. We found a correlation between this time scale and the black hole mass extending over the entire mass range of supermassive black holes. This time scale is consistent with the expected thermal time scale at the ultraviolet-emitting radius in standard accretion disk theory. Accreting white dwarfs lie close to this correlation, suggesting a common process for all accretion disks.
789-792
Burke, Colin J.
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Shen, Yue
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Blaes, Omer
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Gammie, Charles F.
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Horne, Keith
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Jiang, Yan Fei
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Liu, Xin
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McHardy, Ian M.
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Morgan, Christopher W.
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Scaringi, Simone
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Yang, Qian
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Burke, Colin J.
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Shen, Yue
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Blaes, Omer
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Gammie, Charles F.
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Horne, Keith
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Jiang, Yan Fei
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Liu, Xin
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McHardy, Ian M.
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Morgan, Christopher W.
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Scaringi, Simone
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Yang, Qian
5f0077ab-f068-4823-b2b9-5e389fcc2021
Burke, Colin J., Shen, Yue, Blaes, Omer, Gammie, Charles F., Horne, Keith, Jiang, Yan Fei, Liu, Xin, McHardy, Ian M., Morgan, Christopher W., Scaringi, Simone and Yang, Qian
(2021)
A characteristic optical variability time scale in astrophysical accretion disks.
Science, 373 (6556), .
(doi:10.1126/science.abg9933).
Abstract
Accretion disks around supermassive black holes in active galactic nuclei produce continuum radiation at ultraviolet and optical wavelengths. Physical processes in the accretion flow lead to stochastic variability of this emission on a wide range of time scales. We measured the optical continuum variability observed in 67 active galactic nuclei and the characteristic time scale at which the variability power spectrum flattens. We found a correlation between this time scale and the black hole mass extending over the entire mass range of supermassive black holes. This time scale is consistent with the expected thermal time scale at the ultraviolet-emitting radius in standard accretion disk theory. Accreting white dwarfs lie close to this correlation, suggesting a common process for all accretion disks.
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e-pub ahead of print date: 13 August 2021
Identifiers
Local EPrints ID: 486341
URI: http://eprints.soton.ac.uk/id/eprint/486341
ISSN: 0036-8075
PURE UUID: d765ba27-fb23-44b4-98eb-e80fe8e43885
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Date deposited: 18 Jan 2024 18:35
Last modified: 17 Mar 2024 13:19
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Contributors
Author:
Colin J. Burke
Author:
Yue Shen
Author:
Omer Blaes
Author:
Charles F. Gammie
Author:
Keith Horne
Author:
Yan Fei Jiang
Author:
Xin Liu
Author:
Ian M. McHardy
Author:
Christopher W. Morgan
Author:
Simone Scaringi
Author:
Qian Yang
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