Pith. sign in

REVIEW

Not yet reviewed by Pith; the record is open.

This paper has not been read by Pith yet. Machine review is queued; the pith claim, tier, and objections will appear here once it completes.

SPECIMEN: schema-true, not a live event

T0 review · schema-true

One-sentence machine reading of the paper's core claim.

pith:XXXXXXXX · record.json · timestamp

arxiv 1108.1598 v1 pith:2TOFJ7DE submitted 2011-08-08 gr-qc astro-ph.IM

Characterization of the Virgo Seismic Environment

The Virgo Collaboration: T. Accadia , F. Acernese , P. Astone , G. Ballardin , F. Barone , M. Barsuglia , A. Basti , Th. S. Bauer
show 174 more authors
M. Bebronne M.G. Beker A. Belletoile M. Bitossi M. A. Bizouard M. Blom F. Bondu L. Bonelli R. Bonnand V. Boschi L. Bosi B. Bouhou S. Braccini C. Bradaschia M. Branchesi T. Briant A. Brillet V. Brisson T. Bulik H. J. Bulten D. Buskulic C. Buy G. Cagnoli E. Calloni B. Canuel F. Carbognani F. Cavalier R. Cavalieri G. Cella E. Cesarini O. Chaibi E. Chassande-Mottin A. Chincarini A. Chiummo F. Cleva E. Coccia P.-F. Cohadon C. N. Colacino J. Colas A. Colla M. Colombini A. Conte M. Coughlin J.-P. Coulon E. Cuoco S. DAntonio V. Dattilo M. Davier R. Day R. De Rosa G. Debreczeni W. Del Pozzo M. del Prete L. Di Fiore A. Di Lieto M. Di Paolo Emilio A. Di Virgilio A. Dietz M. Drago G. Endroczi V. Fafone I. Ferrante F. Fidecaro I. Fiori R. Flaminio L. A. Forte J.-D. Fournier J. Franc S. Frasca F. Frasconi M. Galimberti L. Gammaitoni F. Garufi M. E. Gaspar G. Gemme E. Genin A. Gennai A. Giazotto R. Gouaty M. Granata C. Greverie G. M. Guidi J.-F. Hayau A. Heidmann H. Heitmann P. Hello P. Jaranowski I. Kowalska A. Krolak N. Leroy N. Letendre T. G. F. Li N. Liguori M. Lorenzini V. Loriette G. Losurdo E. Majorana I. Maksimovic N. Man M. Mantovani F. Marchesoni F. Marion J. Marque F. Martelli A. Masserot C. Michel L. Milano Y. Minenkov M. Mohan N. Morgado A. Morgia S. Mosca B. Mours L. Naticchioni F. Nocera G. Pagliaroli L. Palladino C. Palomba F. Paoletti M. Parisi A. Pasqualetti R. Passaquieti D. Passuello G. Persichetti F. Piergiovanni M. Pietka L. Pinard R. Poggiani M. Prato G. A. Prodi M. Punturo P. Puppo D. S. Rabeling I. Racz P. Rapagnani V. Re T. Regimbau F. Ricci F. Robinet A. Rocchi L. Rolland R. Romano D. Rosinska P. Ruggi B. Sassolas D. Sentenac L. Sperandio R. Sturani B. Swinkels M. Tacca L. Taffarello A. Toncelli M. Tonelli O. Torre E. Tournefier F. Travasso G. Vajente J. F. J. van den Brand C. Van Den Broeck S. van der Putten M. Vasuth M. Vavoulidis G. Vedovato D. Verkindt F. Vetrano A. Vicere J.-Y. Vinet S. Vitale H. Vocca R. L. Ward M. Was M. Yvert A. Zadrozny J.-P. Zendri
This is my paper
classification gr-qc astro-ph.IM
keywords virgoseismicmachinesdetectorenvironmentnoiseaffectattenuation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
0 comments
read the original abstract

The Virgo gravitational wave detector is an interferometer (ITF) with 3km arms located in Pisa, Italy. From July to October 2010, Virgo performed its third science run (VSR3) in coincidence with the LIGO detectors. Despite several techniques adopted to isolate the interferometer from the environment, seismic noise remains an important issue for Virgo. Vibrations produced by the detector infrastructure (such as air conditioning units, water chillers/heaters, pumps) are found to affect Virgo's sensitivity, with the main coupling mechanisms being through beam jitter and scattered light processes. The Advanced Virgo (AdV) design seeks to reduce ITF couplings to environmental noise by having most vibration-sensitive components suspended and in-vacuum, as well as muffle and relocate loud machines. During the months of June and July 2010, a Guralp-3TD seismometer was stationed at various locations around the Virgo site hosting major infrastructure machines. Seismic data were examined using spectral and coherence analysis with seismic probes close to the detector. The primary aim of this study was to identify noisy machines which seismically affect the ITF environment and thus require mitigation attention. Analyzed machines are located at various distances from the experimental halls, ranging from 10m to 100m. An attempt is made to measure the attenuation of emitted noise at the ITF and correlate it to the distance from the source and to seismic attenuation models in soil.

discussion (0)

Sign in with ORCID, Apple, or X to comment. Anyone can read and Pith papers without signing in.