Terrestrial gravity perturbations caused by seismic fields produce the so-called Newtonian noise in gravitational-wave detectors, which is predicted to limit their sensitivity in the upcoming observing runs. In the past, this noise was seen as an infrastructural limitation, i.e., something that cannot be overcome without major investments to improve a detector’s infrastructure. However, it is possible to have at least an indirect estimate of this noise by using the data from a large number of seismometers deployed around a detector’s suspended testmasses. The noise estimate can be subtracted from the gravitational-wave data, a process called Newtonian noise cancellation (NNC). In this article, we present the design and implementation of the first NNC system at the Virgo detector as part of its AdV+ upgrade. It uses data from 110 vertical geophones deployed inside the Virgo buildings in optimized array configurations.We use a separate tiltmeter channel to test the pipeline in a proof-of-principle. The system has been running with good performance over months.

Design and implementation of a seismic Newtonian noise cancellation system for the Virgo gravitational-wave detector / Koley, Soumen; Harms, Jan; Allocca, Annalisa; Badaracco, Francesca; Bertolini, Alessandro; Bulik, Tomasz; Calloni, Enrico; Cieslar, Marek; De Rosa, Rosario; Errico, Luciano; Esposito, Marina; Fiori, Irene; Hild, Stefan; Idzkowski, Bartosz; Masserot, Alain; Mours, Benoît; Paoletti, Federico; Paoli, Andrea; Pietrzak, Mateusz; Rei, Luca; Rolland, Loïc; Singha, Ayatri; Suchenek, Mariusz; Suchinski, Maciej; Tringali, Maria Concetta; Ruggi, Paolo. - In: THE EUROPEAN PHYSICAL JOURNAL PLUS. - ISSN 2190-5444. - 139:1(2024). [10.1140/epjp/s13360-023-04834-0]

Design and implementation of a seismic Newtonian noise cancellation system for the Virgo gravitational-wave detector

Allocca, Annalisa;Calloni, Enrico;De Rosa, Rosario;Errico, Luciano;Esposito, Marina;
2024

Abstract

Terrestrial gravity perturbations caused by seismic fields produce the so-called Newtonian noise in gravitational-wave detectors, which is predicted to limit their sensitivity in the upcoming observing runs. In the past, this noise was seen as an infrastructural limitation, i.e., something that cannot be overcome without major investments to improve a detector’s infrastructure. However, it is possible to have at least an indirect estimate of this noise by using the data from a large number of seismometers deployed around a detector’s suspended testmasses. The noise estimate can be subtracted from the gravitational-wave data, a process called Newtonian noise cancellation (NNC). In this article, we present the design and implementation of the first NNC system at the Virgo detector as part of its AdV+ upgrade. It uses data from 110 vertical geophones deployed inside the Virgo buildings in optimized array configurations.We use a separate tiltmeter channel to test the pipeline in a proof-of-principle. The system has been running with good performance over months.
2024
Design and implementation of a seismic Newtonian noise cancellation system for the Virgo gravitational-wave detector / Koley, Soumen; Harms, Jan; Allocca, Annalisa; Badaracco, Francesca; Bertolini, Alessandro; Bulik, Tomasz; Calloni, Enrico; Cieslar, Marek; De Rosa, Rosario; Errico, Luciano; Esposito, Marina; Fiori, Irene; Hild, Stefan; Idzkowski, Bartosz; Masserot, Alain; Mours, Benoît; Paoletti, Federico; Paoli, Andrea; Pietrzak, Mateusz; Rei, Luca; Rolland, Loïc; Singha, Ayatri; Suchenek, Mariusz; Suchinski, Maciej; Tringali, Maria Concetta; Ruggi, Paolo. - In: THE EUROPEAN PHYSICAL JOURNAL PLUS. - ISSN 2190-5444. - 139:1(2024). [10.1140/epjp/s13360-023-04834-0]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/976004
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