Sources of geophysical noise (such as wind, sea waves and earthquakes) or of anthropogenic noise impact ground-based gravitational-wave interferometric detectors, causing transient sensitivity worsening and gaps in data taking. During the one year-long third observing run (O3: from April 01, 2019 to March 27, 2020), the Virgo Collaboration collected a statistically significant dataset, used in this article to study the response of the detector to a variety of environmental conditions. We correlated environmental parameters to global detector performance, such as observation range, duty cycle and control losses. Where possible, we identified weaknesses in the detector that will be used to elaborate strategies in order to improve Virgo robustness against external disturbances for the next data taking period, O4, currently planned to start at the end of 2022. The lessons learned could also provide useful insights for the design of the next generation of ground-based interferometers.

Acernese, F., Agathos, M., Ain, A., Albanesi, S., Allocca, A., Amato, A., et al. (2022). The Virgo O3 run and the impact of the environment. CLASSICAL AND QUANTUM GRAVITY, 39(23) [10.1088/1361-6382/ac776a].

The Virgo O3 run and the impact of the environment

Barbieri C.;Carpinelli M.;Colombo A.;Colpi M.;Giacomazzo B.;Rozza D.;Salafia O. S.;
2022

Abstract

Sources of geophysical noise (such as wind, sea waves and earthquakes) or of anthropogenic noise impact ground-based gravitational-wave interferometric detectors, causing transient sensitivity worsening and gaps in data taking. During the one year-long third observing run (O3: from April 01, 2019 to March 27, 2020), the Virgo Collaboration collected a statistically significant dataset, used in this article to study the response of the detector to a variety of environmental conditions. We correlated environmental parameters to global detector performance, such as observation range, duty cycle and control losses. Where possible, we identified weaknesses in the detector that will be used to elaborate strategies in order to improve Virgo robustness against external disturbances for the next data taking period, O4, currently planned to start at the end of 2022. The lessons learned could also provide useful insights for the design of the next generation of ground-based interferometers.
Articolo in rivista - Articolo scientifico
Advanced Virgo detector; environment impact; environmental monitoring; gravitational waves; interferometer; observing run 3; sensitivity and duty cycle;
English
9-giu-2022
2022
39
23
235009
none
Acernese, F., Agathos, M., Ain, A., Albanesi, S., Allocca, A., Amato, A., et al. (2022). The Virgo O3 run and the impact of the environment. CLASSICAL AND QUANTUM GRAVITY, 39(23) [10.1088/1361-6382/ac776a].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/467113
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