The Virgo 3 km interferometer for gravitational wave detection

Acernese, F; Amico, P; Alshourbagy, M; Antonucci, F; Aoudia, S; Astone, P; Avino, S; Baggio, L; Ballardin, G; Barone, F; Barsotti, L; Barsuglia, M; Bauer, Ts; Bigotta, S; Bizouard, Ma; Boccara, C; Bondu, F; Bosi, L; Bradaschia, C; Van Den Brand Jfj,; Birindelli, S; Braccini, S; Brillet, A; Brisson, V; Buskulic, D; Cagnoli, G; Calloni, E; Campagna, E; Carbognani, F; Cavalier, F; Cavalieri, R; Cella, G; Cesarini, E; Chassande-Mottin, E; Clapson, Ac; Cleva, F; Coccia, E; Corda, C; Corsi, A; Cottone, F; Coulon, Jp; Cuoco, E; D'Antonio, S; Dari, A; Dattilo, V; Davier, M; Del Prete, M; De Rosa, R; Di Fiore, L; Di Lieto, A; Di Virgilio, A; Dujardin, B; Evans, M; Fafone, V; Ferrante, I; Fidecaro, F; Fiori, I; Flaminio, R; Fournier, Jd; Frasca, S; Frasconi, F; Gammaitoni, L; Garufi, F; Genin, E; Gennai, A; Giazotto, A; Giordano, L; Granata, V; Greverie, C; Grosjean, D; Guidi, G; Hamdani, S; Hebri, S; Heitmann, H; Hello, P; Huet, D; Kreckelbergh, S; La Penna, P; Laval, M; Leroy, N; Letendre, N; Lopez, B; Lorenzini, M; Loriette, V; Losurdo, G; Mackowski, Jm; Majorana, E; Man, Cn; Mantovani, M; Marchesoni, F; Marion, F; Marque, J; Martelli, F; Masserot, A; Menzinger, F; Milano, L; Minenkov, Y; Moins, C; Moreau, J; Morgado, N; Mosca, S; Mours, B; Neri, I; Nocera, F; Pagliaroli, G; Pallottino, Gv; Palomba, C; Paoletti, F; Pardi, S; Pasqualetti, A; Passaquieti, R; Passuello, D; Piergiovanni, F; Pinard, L; Poggiani, R; Punturo, M; Puppo, P; Van Der Putten, S; Rapagnani, P; Regimbau, T; Reita, V; Remillieux, A; Ricci, F; Ricciardi, I; Rocchi, A; Romano, R; Ruggi, P; Russo, G; Solimeno, S; Spallicci, A; Tarallo, M; Terenzi, R; Tonelli, M; Toncelli, A; Tournefier, E; Travasso, F; Tremola, C; Vajente, G; Verkindt, D; Vetrano, F; Vicere, A; Vinet, Jy; Vocca, H; Yvert, M

doi:10.1088/1464-4258/10/6/064009

Virgo, designed, constructed and developed by the French–Italian VIRGO collaboration located in Cascina (Pisa, Italy) and aiming to detect gravitational waves, is a ground-based power recycled Michelson interferometer, with 3 km long suspended Fabry–Perot cavities. The first Virgo scientific data-taking started in mid-May 2007, in coincidence with the corresponding LIGO detectors. The optical scheme of the interferometer and the various optical techniques used in the experiment, such as the laser source, control, alignment, stabilization and detection strategies are outlined. The future upgrades that are planned for Virgo from the optical point of view, especially concerning the evolution of the Virgo laser, are presented. Finally, the next generation of the gravitational wave detector (advanced Virgo) is introduced from the point of view of the laser system

Acernese, F., Amico, P., Alshourbagy, M., Antonucci, F., Aoudia, S., Astone, P., et al. (2008). The Virgo 3 km interferometer for gravitational wave detection. JOURNAL OF OPTICS. A, PURE AND APPLIED OPTICS, 10(6), 1-9 [10.1088/1464-4258/10/6/064009].

The Virgo 3 km interferometer for gravitational wave detection

Acernese F;Amico P;Alshourbagy M;Antonucci F;Aoudia S;Astone P;Avino S;Baggio L;Ballardin G;Barone F;Barsotti L;Barsuglia M;Bauer TS;Bigotta S;Bizouard MA;Boccara C;Bondu F;Bosi L;Bradaschia C;van den Brand JFJ;Birindelli S;Braccini S;Brillet A;Brisson V;Buskulic D;Cagnoli G;Calloni E;Campagna E;Carbognani F;Cavalier F;Cavalieri R;Cella G;Cesarini E;Chassande-Mottin E;Clapson AC;Cleva F;Coccia E;Corda C;Corsi A;Cottone F;Coulon JP;Cuoco E;D'Antonio S;Dari A;Dattilo V;Davier M;del Prete M;De Rosa R;Di Fiore L;Di Lieto A;Di Virgilio A;Dujardin B;Evans M;Fafone V;Ferrante I;Fidecaro F;Fiori I;Flaminio R;Fournier JD;Frasca S;Frasconi F;Gammaitoni L;Garufi F;Genin E;Gennai A;Giazotto A;Giordano L;Granata V;Greverie C;Grosjean D;Guidi G;Hamdani S;Hebri S;Heitmann H;Hello P;Huet D;Kreckelbergh S;La Penna P;Laval M;Leroy N;Letendre N;Lopez B;Lorenzini M;Loriette V;Losurdo G;Mackowski JM;Majorana E;Man CN;Mantovani M;Marchesoni F;Marion F;Marque J;Martelli F;Masserot A;Menzinger F;Milano L;Minenkov Y;Moins C;Moreau J;Morgado N;Mosca S;Mours B;Neri I;Nocera F;Pagliaroli G;Pallottino GV;Palomba C;Paoletti F;Pardi S;Pasqualetti A;Passaquieti R;Passuello D;Piergiovanni F;Pinard L;Poggiani R;Punturo M;Puppo P;van der Putten S;Rapagnani P;Regimbau T;Reita V;Remillieux A;Ricci F;Ricciardi I;Rocchi A;Romano R;Ruggi P;Russo G;Solimeno S;Spallicci A;Tarallo M;Terenzi R;Tonelli M;Toncelli A;Tournefier E;Travasso F;Tremola C;Vajente G;Verkindt D;Vetrano F;Vicere A;Vinet JY;Vocca H;Yvert M

2008

Abstract

Virgo, designed, constructed and developed by the French–Italian VIRGO collaboration located in Cascina (Pisa, Italy) and aiming to detect gravitational waves, is a ground-based power recycled Michelson interferometer, with 3 km long suspended Fabry–Perot cavities. The first Virgo scientific data-taking started in mid-May 2007, in coincidence with the corresponding LIGO detectors. The optical scheme of the interferometer and the various optical techniques used in the experiment, such as the laser source, control, alignment, stabilization and detection strategies are outlined. The future upgrades that are planned for Virgo from the optical point of view, especially concerning the evolution of the Virgo laser, are presented. Finally, the next generation of the gravitational wave detector (advanced Virgo) is introduced from the point of view of the laser system

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	Anno
	
				2008
			
	Rivista
	
				JOURNAL OF OPTICS. A, PURE AND APPLIED OPTICS
			
	Codice DOI
	
				https://dx.doi.org/10.1088/1464-4258/10/6/064009
			
	Citazione
	
				Acernese, F., Amico, P., Alshourbagy, M., Antonucci, F., Aoudia, S., Astone, P., et al. (2008). The Virgo 3 km interferometer for gravitational wave detection. JOURNAL OF OPTICS. A, PURE AND APPLIED OPTICS, 10(6), 1-9 [10.1088/1464-4258/10/6/064009].
			
	Tutti gli autori
	
						Acernese, F; Amico, P; Alshourbagy, M; Antonucci, F; Aoudia, S; Astone, P; Avino, S; Baggio, L; Ballardin, G; Barone, F; Barsotti, L; Barsuglia, M; Ba...espandi

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/998553

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