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Mind the gaps: improved methods for the detection of periodicities in unevenly-sampled data

Mind the gaps: improved methods for the detection of periodicities in unevenly-sampled data
Mind the gaps: improved methods for the detection of periodicities in unevenly-sampled data
The detection of periodic signals in irregularly-sampled time series is a problem commonly encountered in astronomy. Traditional tools used for periodic searches, such as the periodogram, have poorly defined statistical properties under irregular sampling, which complicate inferring the underlying aperiodic variability used for hypothesis testing. The problem is exacerbated in the presence of stochastic variability, which can be easily mistaken by genuine periodic behaviour, particularly in the case of poorly sampled lightcurves. Here we present a method based on Gaussian Processes (GPs) modelling for period searches and characterization, specifically developed to overcome these problems. We argue that in cases of irregularly-sampled time series, GPs offer an appealing alternative to traditional periodograms, because the known distribution of the data (correlated Gaussian) allows a well-defined likelihood to be constructed. We exploit this property and draw from existing statistical methods to perform traditional likelihood ratio tests for an additional, (quasi-)periodic component, using the aperiodic variability inferred from the data as the null hypothesis. Inferring the noise from the data allows the method to be fully generalizable, with the only condition that the data can be described as a Gaussian process. We demonstrate the method by applying it to a variety of objects showing varying levels of noise and data quality. Limitations of the method are discussed and a package implementing the proposed methodology is made publicly available.
astro-ph.HE, astro-ph.IM, methods: statistical, methods: data analysis, stars: black holes, galaxies: active, accretion, accretion discs, stars: neutron
1365-2966
3210–3233
Gúrpide, Andrés
97591ff3-cd37-41e9-8dd1-a818fa382092
Middleton, Matthew
f91b89d9-fd2e-42ec-aa99-1249f08a52ad
Gúrpide, Andrés
97591ff3-cd37-41e9-8dd1-a818fa382092
Middleton, Matthew
f91b89d9-fd2e-42ec-aa99-1249f08a52ad

Gúrpide, Andrés and Middleton, Matthew (2025) Mind the gaps: improved methods for the detection of periodicities in unevenly-sampled data. Monthly Notices of the Royal Astronomical Society, 537 (4), 3210–3233. (doi:10.1093/mnras/staf196).

Record type: Article

Abstract

The detection of periodic signals in irregularly-sampled time series is a problem commonly encountered in astronomy. Traditional tools used for periodic searches, such as the periodogram, have poorly defined statistical properties under irregular sampling, which complicate inferring the underlying aperiodic variability used for hypothesis testing. The problem is exacerbated in the presence of stochastic variability, which can be easily mistaken by genuine periodic behaviour, particularly in the case of poorly sampled lightcurves. Here we present a method based on Gaussian Processes (GPs) modelling for period searches and characterization, specifically developed to overcome these problems. We argue that in cases of irregularly-sampled time series, GPs offer an appealing alternative to traditional periodograms, because the known distribution of the data (correlated Gaussian) allows a well-defined likelihood to be constructed. We exploit this property and draw from existing statistical methods to perform traditional likelihood ratio tests for an additional, (quasi-)periodic component, using the aperiodic variability inferred from the data as the null hypothesis. Inferring the noise from the data allows the method to be fully generalizable, with the only condition that the data can be described as a Gaussian process. We demonstrate the method by applying it to a variety of objects showing varying levels of noise and data quality. Limitations of the method are discussed and a package implementing the proposed methodology is made publicly available.

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More information

Accepted/In Press date: 24 January 2025
e-pub ahead of print date: 31 January 2025
Published date: 1 March 2025
Keywords: astro-ph.HE, astro-ph.IM, methods: statistical, methods: data analysis, stars: black holes, galaxies: active, accretion, accretion discs, stars: neutron

Identifiers

Local EPrints ID: 499192
URI: http://eprints.soton.ac.uk/id/eprint/499192
DOI: doi:10.1093/mnras/staf196
ISSN: 1365-2966
PURE UUID: c22d01ac-11a1-49a4-a6b3-8739e3733dab

Catalogue record

Date deposited: 11 Mar 2025 17:44
Last modified: 26 Aug 2025 16:49

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Contributors

Author: Andrés Gúrpide
Author: Matthew Middleton

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