Modeling the multiwavelength Variability of Mrk 335 using Gaussian processes
Modeling the multiwavelength Variability of Mrk 335 using Gaussian processes
The optical and UV variability of the majority of AGN may be related to the reprocessing of rapidly-changing X-ray emission from a more compact region near the central black hole. Such a reprocessing model would be characterised by lags between X-ray and optical/UV emission due to differences in light travel time. Observationally however, such lag features have been difficult to detect due to gaps in the lightcurves introduced through factors such as source visibility or limited telescope time. In this work, Gaussian process regression is employed to interpolate the gaps in the Swift X-ray and UV lightcurves of the narrow-line Seyfert 1 galaxy Mrk 335. In a simulation study of five commonly-employed analytic Gaussian process kernels, we conclude that the Matern 1/2 and rational quadratic kernels yield the most well-specified models for the X-ray and UVW2 bands of Mrk 335. In analysing the structure functions of the Gaussian process lightcurves, we obtain a broken power law with a break point at 125 days in the UVW2 band. In the X-ray band, the structure function of the Gaussian process lightcurve is consistent with a power law in the case of the rational quadratic kernel whilst a broken power law with a breakpoint at 66 days is obtained from the Matern 1/2 kernel. The subsequent cross-correlation analysis is consistent with previous studies and furthermore, shows tentative evidence for a broad X-ray-UV lag feature of up to 30 days in the lag-frequency spectrum where the significance of the lag depends on the choice of Gaussian process kernel.
Griffiths, Ryan-Rhys
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Jiang, Jiachen
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Buisson, Douglas J.K.
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Wilkins, Dan R.
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Gallo, Luigi C.
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Ingram, Adam
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Lee, Alpha A.
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Grupe, Dirk
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Kara, Erin
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Parker, Michael L.
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Alston, William
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Bourached, Anthony
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Cann, George
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Young, Andrew
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Komossa, S.
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Griffiths, Ryan-Rhys
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Jiang, Jiachen
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Buisson, Douglas J.K.
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Wilkins, Dan R.
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Gallo, Luigi C.
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Ingram, Adam
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Lee, Alpha A.
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Grupe, Dirk
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Kara, Erin
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Parker, Michael L.
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Alston, William
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Bourached, Anthony
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Cann, George
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Young, Andrew
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Komossa, S.
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Griffiths, Ryan-Rhys, Jiang, Jiachen, Buisson, Douglas J.K., Wilkins, Dan R., Gallo, Luigi C., Ingram, Adam, Lee, Alpha A., Grupe, Dirk, Kara, Erin, Parker, Michael L., Alston, William, Bourached, Anthony, Cann, George, Young, Andrew and Komossa, S.
(2021)
Modeling the multiwavelength Variability of Mrk 335 using Gaussian processes.
Astrophysical Journal.
(In Press)
Abstract
The optical and UV variability of the majority of AGN may be related to the reprocessing of rapidly-changing X-ray emission from a more compact region near the central black hole. Such a reprocessing model would be characterised by lags between X-ray and optical/UV emission due to differences in light travel time. Observationally however, such lag features have been difficult to detect due to gaps in the lightcurves introduced through factors such as source visibility or limited telescope time. In this work, Gaussian process regression is employed to interpolate the gaps in the Swift X-ray and UV lightcurves of the narrow-line Seyfert 1 galaxy Mrk 335. In a simulation study of five commonly-employed analytic Gaussian process kernels, we conclude that the Matern 1/2 and rational quadratic kernels yield the most well-specified models for the X-ray and UVW2 bands of Mrk 335. In analysing the structure functions of the Gaussian process lightcurves, we obtain a broken power law with a break point at 125 days in the UVW2 band. In the X-ray band, the structure function of the Gaussian process lightcurve is consistent with a power law in the case of the rational quadratic kernel whilst a broken power law with a breakpoint at 66 days is obtained from the Matern 1/2 kernel. The subsequent cross-correlation analysis is consistent with previous studies and furthermore, shows tentative evidence for a broad X-ray-UV lag feature of up to 30 days in the lag-frequency spectrum where the significance of the lag depends on the choice of Gaussian process kernel.
Text
Modeling the Multiwavelength Variability of Mrk 335 Using Gaussian Processes
- Accepted Manuscript
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Accepted/In Press date: 21 April 2021
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Identifiers
Local EPrints ID: 450919
URI: http://eprints.soton.ac.uk/id/eprint/450919
ISSN: 0004-637X
PURE UUID: 2edb4345-eda8-4ac1-893e-81b52832c1ce
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Date deposited: 20 Aug 2021 16:38
Last modified: 17 Mar 2024 06:46
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Contributors
Author:
Ryan-Rhys Griffiths
Author:
Jiachen Jiang
Author:
Douglas J.K. Buisson
Author:
Dan R. Wilkins
Author:
Luigi C. Gallo
Author:
Adam Ingram
Author:
Alpha A. Lee
Author:
Dirk Grupe
Author:
Erin Kara
Author:
Michael L. Parker
Author:
William Alston
Author:
Anthony Bourached
Author:
George Cann
Author:
Andrew Young
Author:
S. Komossa
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