Automatic Alignment for the first science run of the Virgo interferometer

Acernese, F; Alshourbagy, M; Antonucci, F; Aoudia, S; Arun, Kg; Astone, P; Ballardin, G; Barone, F; Barsuglia, M; Bauer, Ts; Bigotta, S; Birindelli, S; Bizouard, Ma; Boccara, C; Bondu, F; Bonelli, L; Bosi, L; Braccini, S; Bradaschia, C; Brillet, A; Brisson, V; Bulten, Hj; Buskulic, D; Cagnoli, G; Calloni, E; Campagna, E; Canuel, B; Carbognani, F; Carbone, L; Cavalier, F; Cavalieri, R; Cella, G; Cesarini, E; Chassande-Mottin, E; Chatterji, S; Cleva, F; Coccia, E; Colas, J; Colombini, M; Corda, C; Corsi, A; Coulon, Jp; Cuoco, E; D'Antonio, S; Dari, A; Dattilo, V; Davier, M; De Rosa, R; Del Prete, M; Di Fiore, L; Di Lieto, A; Mdp, Emilio; Di Virgilio, A; 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; Granata, M; Granata, V; Greverie, C; Guidi, G; Heitmann, H; Hello, P; Hild, S; Huet, D; La Penna, P; Laval, M; Leroy, N; Letendre, N; 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; Michel, C; Milano, L; Minenkov, Y; Mohan, M; Moreau, J; Morgado, N; Mosca, S; Mours, B; Neri, I; Nocera, F; Pagliaroli, G; Palomba, C; Paoletti, F; Pardi, S; Pasqualetti, A; Passaquieti, R; Passuello, D; Persichetti, G; Piergiovanni, F; Pinard, L; Poggiani, R; Punturo, M; Puppo, P; Rabaste, O; Rapagnani, P; Regimbau, T; Ricci, F; Rocchi, A; Rolland, L; Romano, R; Ruggi, P; Sassolas, B; Sentenac, D; Swinkels, Bl; Terenzi, R; Toncelli, A; Tonelli, M; Tournefier, E; Travasso, F; Trummer, J; Vajente, G; van den Brand JFJ,; van der Putten, S; Verkindt, D; Vetrano, F; Vicere, A; Vinet, Jy; Vocca, H; Was, M; Yvert, M

doi:10.1016/j.astropartphys.2010.01.010

During the past few years a network of large-scale laser interferometers, including the Virgo detector, has been developed with the aim of detecting gravitational waves. To properly operate the detectors, the longitudinal and angular positions of the suspended detector test masses, the interferometer mirrors, must be kept within a small range from the operating point. The design of the Virgo angular control system, called Automatic Alignment is based on a modified version of the Anderson-Giordano technique, a wave-front sensing scheme which uses the modulation-demodulation technique. This paper will present the theoretical background of the Virgo Automatic Alignment system, the implementation issues and the performances observed during the first V irgo science run (VSR1). A total RMS of 4x10^-^2 to 3x10^-^3@mrad for all angular degrees of freedom has been achieved.

Acernese, F., Alshourbagy, M., Antonucci, F., Aoudia, S., Arun, K.g., Astone, P., et al. (2010). Automatic Alignment for the first science run of the Virgo interferometer. ASTROPARTICLE PHYSICS, 33(3), 131-139 [10.1016/j.astropartphys.2010.01.010].

Automatic Alignment for the first science run of the Virgo interferometer

Acernese F;Alshourbagy M;Antonucci F;Aoudia S;Arun KG;Astone P;Ballardin G;Barone F;Barsuglia M;Bauer TS;Bigotta S;Birindelli S;Bizouard MA;Boccara C;Bondu F;Bonelli L;Bosi L;Braccini S;Bradaschia C;Brillet A;Brisson V;Bulten HJ;Buskulic D;Cagnoli G;Calloni E;Campagna E;Canuel B;Carbognani F;Carbone L;Cavalier F;Cavalieri R;Cella G;Cesarini E;Chassande-Mottin E;Chatterji S;Cleva F;Coccia E;Colas J;Colombini M;Corda C;Corsi A;Coulon JP;Cuoco E;D'Antonio S;Dari A;Dattilo V;Davier M;De Rosa R;Del Prete M;Di Fiore L;Di Lieto A;Emilio MDP;Di Virgilio A;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;Granata M;Granata V;Greverie C;Guidi G;Heitmann H;Hello P;Hild S;Huet D;La Penna P;Laval M;Leroy N;Letendre N;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;Michel C;Milano L;Minenkov Y;Mohan M;Moreau J;Morgado N;Mosca S;Mours B;Neri I;Nocera F;Pagliaroli G;Palomba C;Paoletti F;Pardi S;Pasqualetti A;Passaquieti R;Passuello D;Persichetti G;Piergiovanni F;Pinard L;Poggiani R;Punturo M;Puppo P;Rabaste O;Rapagnani P;Regimbau T;Ricci F;Rocchi A;Rolland L;Romano R;Ruggi P;Sassolas B;Sentenac D;Swinkels BL;Terenzi R;Toncelli A;Tonelli M;Tournefier E;Travasso F;Trummer J;Vajente G;van den Brand JFJ;van der Putten S;Verkindt D;Vetrano F;Vicere A;Vinet JY;Vocca H;Was M;Yvert M

2010

Abstract

During the past few years a network of large-scale laser interferometers, including the Virgo detector, has been developed with the aim of detecting gravitational waves. To properly operate the detectors, the longitudinal and angular positions of the suspended detector test masses, the interferometer mirrors, must be kept within a small range from the operating point. The design of the Virgo angular control system, called Automatic Alignment is based on a modified version of the Anderson-Giordano technique, a wave-front sensing scheme which uses the modulation-demodulation technique. This paper will present the theoretical background of the Virgo Automatic Alignment system, the implementation issues and the performances observed during the first V irgo science run (VSR1). A total RMS of 4x10^-^2 to 3x10^-^3@mrad for all angular degrees of freedom has been achieved.

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	Anno
	
				2010
			
	Rivista
	
				ASTROPARTICLE PHYSICS
			
	Codice DOI
	
				https://dx.doi.org/10.1016/j.astropartphys.2010.01.010
			
	Citazione
	
				Acernese, F., Alshourbagy, M., Antonucci, F., Aoudia, S., Arun, K.g., Astone, P., et al. (2010). Automatic Alignment for the first science run of the Virgo interferometer. ASTROPARTICLE PHYSICS, 33(3), 131-139 [10.1016/j.astropartphys.2010.01.010].
			
	Tutti gli autori
	
						Acernese, F; Alshourbagy, M; Antonucci, F; Aoudia, S; Arun, Kg; Astone, P; Ballardin, G; Barone, F; Barsuglia, M; Bauer, Ts; Bigotta, S; Birindelli, S...espandi

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/998502

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