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Autori principali: Yamamura, Shunsei, Yuzurihara, Hirotaka, Yamamoto, Takahiro, Uchiyama, Takashi
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2403.12731
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author Yamamura, Shunsei
Yuzurihara, Hirotaka
Yamamoto, Takahiro
Uchiyama, Takashi
author_facet Yamamura, Shunsei
Yuzurihara, Hirotaka
Yamamoto, Takahiro
Uchiyama, Takashi
contents In gravitational wave astronomy, non-Gaussian noise, such as scattered light noise disturbs stable interferometer operation, limiting the interferometer's sensitivity, and reducing the reliability of the analyses. In scattered light noise, the non-Gaussian noise dominates the sensitivity in a low frequency range of less than a few hundred Hz, which is sensitive to gravitational waves from compact binary coalescence. This non-Gaussian noise prevents reliable parameter estimation, since several analysis methods are optimized only for Gaussian noise. Therefore, identifying data contaminated by non-Gaussian noise is important. In this work, we extended the conventional method to evaluate non-Gaussian noise, Rayleigh statistic, by using a statistical hypothesis test to determine a threshold for non-Gaussian noise. First, we estimated the distribution of the Rayleigh statistic against Gaussian noise, called the background distribution, and validated that our extension serves as the hypothetical test. Moreover, we investigated the detection efficiency by assuming two non-Gaussian noise models. For example, for the model with strong scattered light noise, the true positive rate was always above 0.7 when the significance level was 0.05. The results showed that our extension can contribute to an initial detection of non-Gaussian noise and lead to further investigation of the origin of the non-Gaussian noise.
format Preprint
id arxiv_https___arxiv_org_abs_2403_12731
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Extension of the characterization method for non-Gaussianity in gravitational wave detector with statistical hypothesis test
Yamamura, Shunsei
Yuzurihara, Hirotaka
Yamamoto, Takahiro
Uchiyama, Takashi
General Relativity and Quantum Cosmology
Instrumentation and Methods for Astrophysics
In gravitational wave astronomy, non-Gaussian noise, such as scattered light noise disturbs stable interferometer operation, limiting the interferometer's sensitivity, and reducing the reliability of the analyses. In scattered light noise, the non-Gaussian noise dominates the sensitivity in a low frequency range of less than a few hundred Hz, which is sensitive to gravitational waves from compact binary coalescence. This non-Gaussian noise prevents reliable parameter estimation, since several analysis methods are optimized only for Gaussian noise. Therefore, identifying data contaminated by non-Gaussian noise is important. In this work, we extended the conventional method to evaluate non-Gaussian noise, Rayleigh statistic, by using a statistical hypothesis test to determine a threshold for non-Gaussian noise. First, we estimated the distribution of the Rayleigh statistic against Gaussian noise, called the background distribution, and validated that our extension serves as the hypothetical test. Moreover, we investigated the detection efficiency by assuming two non-Gaussian noise models. For example, for the model with strong scattered light noise, the true positive rate was always above 0.7 when the significance level was 0.05. The results showed that our extension can contribute to an initial detection of non-Gaussian noise and lead to further investigation of the origin of the non-Gaussian noise.
title Extension of the characterization method for non-Gaussianity in gravitational wave detector with statistical hypothesis test
topic General Relativity and Quantum Cosmology
Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2403.12731