Detection of periodic signals in AGN red noise light curves: empirical tests on the Auto-Correlation Function and Phase Dispersion Minimization
Detection of periodic signals in AGN red noise light curves: empirical tests on the Auto-Correlation Function and Phase Dispersion Minimization
Active galactic nucleus (AGN) emission is dominated by stochastic, aperiodic variability which overwhelms any periodic/quasi-periodic signal (QPO) if one is present. The Auto-Correlation Function (ACF) and Phase Dispersion Minimization (PDM) techniques have been used previously to claim detections of QPOs in AGN light curves. In this paper, we perform Monte Carlo simulations to empirically test QPO detection feasibility in the presence of red noise. Given the community’s access to large data bases of monitoring light curves via large-area monitoring programmes, our goal is to provide guidance to those searching for QPOs via data trawls. We simulate evenly sampled pure red noise light curves to estimate false alarm probabilities; false positives in both tools tend to occur towards time-scales longer than (very roughly) one-third of the light-curve duration. We simulate QPOs mixed with pure red noise and determine the true-positive detection sensitivity; in both tools, it depends strongly on the relative strength of the QPO against the red noise and on the steepness of the red noise PSD slope. We find that extremely large values of peak QPO power relative to red noise (typically ∼104−5) are needed for a 99.7 per cent true-positive detection rate. Given that the true-positive detections using the ACF or PDM are generally rare to obtain, we conclude that period searches based on the ACF or PDM must be treated with extreme caution when the data quality is not good. We consider the feasibility of QPO detection in the context of highly inclined, periodically self-lensing supermassive black hole binaries.
galaxies: active, methods: statistical
3975–3994
Middleton, Matthew
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Krishnan, S.
709c7ad8-274f-4595-b3f9-159bcba76de6
Markowitz, A.G.
fdf2ed35-e55d-4196-b7ae-9df6feb7b991
Schwarzenberg-Czerny, A.
a831a4b0-65e6-4c88-b932-1e28802aff3c
1 December 2021
Middleton, Matthew
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Krishnan, S.
709c7ad8-274f-4595-b3f9-159bcba76de6
Markowitz, A.G.
fdf2ed35-e55d-4196-b7ae-9df6feb7b991
Schwarzenberg-Czerny, A.
a831a4b0-65e6-4c88-b932-1e28802aff3c
Middleton, Matthew, Krishnan, S., Markowitz, A.G. and Schwarzenberg-Czerny, A.
(2021)
Detection of periodic signals in AGN red noise light curves: empirical tests on the Auto-Correlation Function and Phase Dispersion Minimization.
Monthly Notices of the Royal Astronomical Society, 508 (3), .
(doi:10.1093/mnras/stab2839).
Abstract
Active galactic nucleus (AGN) emission is dominated by stochastic, aperiodic variability which overwhelms any periodic/quasi-periodic signal (QPO) if one is present. The Auto-Correlation Function (ACF) and Phase Dispersion Minimization (PDM) techniques have been used previously to claim detections of QPOs in AGN light curves. In this paper, we perform Monte Carlo simulations to empirically test QPO detection feasibility in the presence of red noise. Given the community’s access to large data bases of monitoring light curves via large-area monitoring programmes, our goal is to provide guidance to those searching for QPOs via data trawls. We simulate evenly sampled pure red noise light curves to estimate false alarm probabilities; false positives in both tools tend to occur towards time-scales longer than (very roughly) one-third of the light-curve duration. We simulate QPOs mixed with pure red noise and determine the true-positive detection sensitivity; in both tools, it depends strongly on the relative strength of the QPO against the red noise and on the steepness of the red noise PSD slope. We find that extremely large values of peak QPO power relative to red noise (typically ∼104−5) are needed for a 99.7 per cent true-positive detection rate. Given that the true-positive detections using the ACF or PDM are generally rare to obtain, we conclude that period searches based on the ACF or PDM must be treated with extreme caution when the data quality is not good. We consider the feasibility of QPO detection in the context of highly inclined, periodically self-lensing supermassive black hole binaries.
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2110.14454
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stab2839
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Accepted/In Press date: 23 September 2021
Published date: 1 December 2021
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© 2021 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.
Keywords:
galaxies: active, methods: statistical
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Local EPrints ID: 453278
URI: http://eprints.soton.ac.uk/id/eprint/453278
ISSN: 1365-2966
PURE UUID: f3f64327-dfdd-4302-91cb-0e8c93622f2b
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Date deposited: 11 Jan 2022 18:16
Last modified: 16 Mar 2024 15:16
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Author:
S. Krishnan
Author:
A.G. Markowitz
Author:
A. Schwarzenberg-Czerny
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