Journal article
Enhancing the gravitational-wave burst detection confidence in expanded detector networks with the BayesWave pipeline
YSC Lee, M Millhouse, A Melatos
Physical Review D | AMER PHYSICAL SOC | Published : 2021
Abstract
The global gravitational-wave detector network achieves higher detection rates, better parameter estimates, and more accurate sky localization as the number of detectors I increases. This paper quantifies network performance as a function of I for BayesWave, a source-agnostic, wavelet-based, Bayesian algorithm which distinguishes between true astrophysical signals and instrumental glitches. Detection confidence is quantified using the signal-to-glitch Bayes factor BS,G. An analytic scaling is derived for BS,G versus I, the number of wavelets, and the network signal-to-noise ratio SNRnet, which is confirmed empirically via injections into detector noise of the Hanford-Livingston (HL), Hanford..
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Grants
Awarded by National Science Foundation
Funding Acknowledgements
Parts of this research were conducted by the Australian Research Council Centre of Excellence for Gravitational Wave Discovery (OzGrav), through Project No. CE170100004. The authors are grateful for computational resources provided by the LIGO Laboratory and supported by National Science Foundation Grants No. PHY-0757058 and No. PHY-0823459. We thank Bence B ' ecsy for his helpful comments.