Calibration of advanced Virgo and reconstruction of the gravitational wave signal h(t) during the observing run O2

Acernese, F; Adams, T; Agatsuma, K; Aiello, L; Allocca, A; Aloy, Ma; Amato, A; Antier, S; Arene, M; Arnaud, N; Ascenzi, S; Astone, P; Aubin, F; Babak, S; Bacon, P; Badaracco, F; Mkm, Bader; Baldaccini, F; Ballardin, G; Barone, F; Barsuglia, M; Barta, D; Basti, A; Bawaj, M; Bazzan, M; Bejger, M; Belahcene, I; Bernuzzi, S; Bersanetti, D; Bertolini, A; Bitossi, M; Bizouard, Ma; Bloemen, S; Boer, M; Bogaert, G; Bondu, F; Bonnand, R; Boom, Ba; Boschi, V; Bouffanais, Y; Bozzi, A; Bradaschia, C; Branchesi, M; Briant, T; Brighenti, F; Brillet, A; Brisson, V; Bulik, T; Bulten, Hj; Buskulic, D; Buy, C; Cagnoli, G; Calloni, E; Canepa, M; Canizares, P; Capocasa, E; Carbognani, F; Diaz, Jc; Casentini, C; Caudill, S; Cavalier, F; Cavalieri, R; Cella, G; Cerda-Duran, P; Cerretani, G; Cesarini, E; Chaibi, O; Chassande-Mottin, E; Chincarini, A; Chiummo, A; Christensen, N; Chua, S; Ciani, G; Ciolfi, R; Cipriano, F; Cirone, A; Cleva, F; Coccia, E; Cohadon, Pf; Cohen, D; Colla, A; Conti, L; Cordero-Carrion, I; Cortese, S; Coulon, Jp; Cuoco, E; D'Antonio, S; Dattilo, V; Davier, M; Rossi, C; Degallaix, J; Laurentis, M; Deleglise, S; Pozzo, W; Pietri, R; Rosa, R; Fiore, L; Giovanni, M; Girolamo, T; Lieto, A; Pace, S; Palma, I; Renzo, F; Dolique, V; Drago, M; Eisenmann, M; Estevez, D; Fafone, V; Farinon, S; Feng, F; Ferrante, I; Ferrini, F; Fidecaro, F; Fiori, I; Fiorucci, D; Flaminio, R; Font, Ja; Fournier, Jd; Frasca, S; Frasconi, F; Frey, V; Gammaitoni, L; Garufi, F; Gemme, G; Genin, E; Gennai, A; Germain, V; Ghosh, A; Giacomazzo, B; Giazotto, A; Giordano, G; Jmg, Castro; Gosselin, M; Gouaty, R; Grado, A; Granata, M; Greco, G; Groot, P; Gruning, P; Guidi, Gm; Halim, O; Harms, J; Heidmann, A; Heitmann, H; Hello, P; Hemming, G; Hinderer, T; Hoak, D; Hofman, D; Hreibi, A; Huet, D; Iess, A; Intini, G; Isac, Jm; Jacqmin, T; Jaranowski, P; Rjg, Jonker; Katsanevas, S; Kefelian, F; Khan, I; Koley, S; Kowalska, I; Krolak, A; Kutynia, A; Lartaux-Vollard, A; Lazzaro, C; Leaci, P; Leonardi, M; Leroy, N; Letendre, N; Longo, A; Lorenzini, M; Loriette, V; Losurdo, G; Lumaca, D; Majorana, E; Maksimovic, I; Man, N; Mantovani, M; Marchesoni, F; Marion, F; Marquina, A; Martelli, F; Martellini, L; Masserot, A; Mastrogiovanni, S; Meidam, J; Mereni, L; Merzougui, M; Metzdorff, R; Michel, C; Milano, L; Miller, A; Minazzoli, O; Minenkov, Y; Mohan, M; Montani, M; Mours, B; Nardecchia, I; Naticchioni, L; Nelemans, G; Nichols, D; Nissanke, S; Nocera, F; Obergaulinger, M; Pagano, G; Palomba, C; Paoletti, F; Paoli, A; Pasqualetti, A; Passaquieti, R; Passuello, D; Patil, M; Patricelli, B; Pedurand, R; Perreca, A; Piccinni, Oj; Pichot, M; Piergiovanni, F; Pillant, G; Pinard, L; Poggiani, R; Popolizio, P; Porter, Ek; Possenti, L; Prodi, Ga; Punturo, M; Puppo, P; Rapagnani, P; Razzano, M; Regimbau, T; Rei, L; Ricci, F; Robinet, F; Rocchi, A; Rolland, L; Romano, R; Rosinska, D; Ruggi, P; Salconi, L; Samajdar, A; Sanchis-Gual, N; Sassolas, B; Schmidt, P; Sentenac, D; Sequino, V; Sieniawska, M; Singhal, A; Sorrentino, F; Stratta, G; Swinkels, Bl; Tacca, M; Tiwari, S; Tonelli, M; Torres-Forne, A; Travasso, F; Tringali, Mc; Trozzo, L; Tsang, Kw; Bakel, N; Beuzekom, M; den Brand JFJ,; den Broeck, C; Schaaf, Ld; Heijningen, Jv; Vardaro, M; Vasuth, M; Vedovato, G; Verkindt, D; Vetrano, F; Vicere, A; Vinet, Jy; Vocca, H; Walet, R; Wang, G; Was, M; Williamson, Ar; Yvert, M; Zadrozny, A; Zelenova, T; Zendri, Jp; Kandhasamy, S; Urban, Al

doi:10.1088/1361-6382/aadf1a

In August 2017, advanced Virgo joined advanced LIGO for the end of the O2 run, leading to the first gravitational waves detections with the three-detector network. This paper describes the advanced Virgo calibration and the gravitational wave strain h(t) reconstruction during O2. The methods are the same as the ones developed for the initial Virgo detector and have already been described in previous publications; this paper summarizes the differences and emphasis is put on estimating systematic uncertainties. Three versions of the h(t) signal have been computed for the Virgo O2 run, an online version and two post-run reprocessed versions with improved detector calibration and reconstruction algorithm. A photon calibrator has been used to establish the sign of h(t) and to make an independent partial cross-check of the systematic uncertainties. The uncertainties reached for the latest h(t) version are 5.1% in amplitude, 40 mrad in phase and 20 mu s in timing.

Acernese F, Adams T, Agatsuma K, Aiello L, Allocca A, Aloy MA, et al. (2018). Calibration of advanced Virgo and reconstruction of the gravitational wave signal h(t) during the observing run O2. CLASSICAL AND QUANTUM GRAVITY, 35(20), 1-18 [10.1088/1361-6382/aadf1a].

Calibration of advanced Virgo and reconstruction of the gravitational wave signal h(t) during the observing run O2

Acernese F;Adams T;Agatsuma K;Aiello L;Allocca A;Aloy MA;Amato A;Antier S;Arene M;Arnaud N;Ascenzi S;Astone P;Aubin F;Babak S;Bacon P;Badaracco F;Bader MKM;Baldaccini F;Ballardin G;Barone F;Barsuglia M;Barta D;Basti A;Bawaj M;Bazzan M;Bejger M;Belahcene I;Bernuzzi S;Bersanetti D;Bertolini A;Bitossi M;Bizouard MA;Bloemen S;Boer M;Bogaert G;Bondu F;Bonnand R;Boom BA;Boschi V;Bouffanais Y;Bozzi A;Bradaschia C;Branchesi M;Briant T;Brighenti F;Brillet A;Brisson V;Bulik T;Bulten HJ;Buskulic D;Buy C;Cagnoli G;Calloni E;Canepa M;Canizares P;Capocasa E;Carbognani F;Diaz JC;Casentini C;Caudill S;Cavalier F;Cavalieri R;Cella G;Cerda-Duran P;Cerretani G;Cesarini E;Chaibi O;Chassande-Mottin E;Chincarini A;Chiummo A;Christensen N;Chua S;Ciani G;Ciolfi R;Cipriano F;Cirone A;Cleva F;Coccia E;Cohadon PF;Cohen D;Colla A;Conti L;Cordero-Carrion I;Cortese S;Coulon JP;Cuoco E;D'Antonio S;Dattilo V;Davier M;Rossi C;Degallaix J;Laurentis M;Deleglise S;Pozzo W;Pietri R;Rosa R;Fiore L;Giovanni M;Girolamo T;Lieto A;Pace S;Palma I;Renzo F;Dolique V;Drago M;Eisenmann M;Estevez D;Fafone V;Farinon S;Feng F;Ferrante I;Ferrini F;Fidecaro F;Fiori I;Fiorucci D;Flaminio R;Font JA;Fournier JD;Frasca S;Frasconi F;Frey V;Gammaitoni L;Garufi F;Gemme G;Genin E;Gennai A;Germain V;Ghosh A;Giacomazzo B;Giazotto A;Giordano G;Castro JMG;Gosselin M;Gouaty R;Grado A;Granata M;Greco G;Groot P;Gruning P;Guidi GM;Halim O;Harms J;Heidmann A;Heitmann H;Hello P;Hemming G;Hinderer T;Hoak D;Hofman D;Hreibi A;Huet D;Iess A;Intini G;Isac JM;Jacqmin T;Jaranowski P;Jonker RJG;Katsanevas S;Kefelian F;Khan I;Koley S;Kowalska I;Krolak A;Kutynia A;Lartaux-Vollard A;Lazzaro C;Leaci P;Leonardi M;Leroy N;Letendre N;Longo A;Lorenzini M;Loriette V;Losurdo G;Lumaca D;Majorana E;Maksimovic I;Man N;Mantovani M;Marchesoni F;Marion F;Marquina A;Martelli F;Martellini L;Masserot A;Mastrogiovanni S;Meidam J;Mereni L;Merzougui M;Metzdorff R;Michel C;Milano L;Miller A;Minazzoli O;Minenkov Y;Mohan M;Montani M;Mours B;Nardecchia I;Naticchioni L;Nelemans G;Nichols D;Nissanke S;Nocera F;Obergaulinger M;Pagano G;Palomba C;Paoletti F;Paoli A;Pasqualetti A;Passaquieti R;Passuello D;Patil M;Patricelli B;Pedurand R;Perreca A;Piccinni OJ;Pichot M;Piergiovanni F;Pillant G;Pinard L;Poggiani R;Popolizio P;Porter EK;Possenti L;Prodi GA;Punturo M;Puppo P;Rapagnani P;Razzano M;Regimbau T;Rei L;Ricci F;Robinet F;Rocchi A;Rolland L;Romano R;Rosinska D;Ruggi P;Salconi L;Samajdar A;Sanchis-Gual N;Sassolas B;Schmidt P;Sentenac D;Sequino V;Sieniawska M;Singhal A;Sorrentino F;Stratta G;Swinkels BL;Tacca M;Tiwari S;Tonelli M;Torres-Forne A;Travasso F;Tringali MC;Trozzo L;Tsang KW;Bakel N;Beuzekom M;den Brand JFJ;den Broeck C;Schaaf LD;Heijningen JV;Vardaro M;Vasuth M;Vedovato G;Verkindt D;Vetrano F;Vicere A;Vinet JY;Vocca H;Walet R;Wang G;Was M;Williamson AR;Yvert M;Zadrozny A;Zelenova T;Zendri JP;Kandhasamy S;Urban AL

2018

Abstract

In August 2017, advanced Virgo joined advanced LIGO for the end of the O2 run, leading to the first gravitational waves detections with the three-detector network. This paper describes the advanced Virgo calibration and the gravitational wave strain h(t) reconstruction during O2. The methods are the same as the ones developed for the initial Virgo detector and have already been described in previous publications; this paper summarizes the differences and emphasis is put on estimating systematic uncertainties. Three versions of the h(t) signal have been computed for the Virgo O2 run, an online version and two post-run reprocessed versions with improved detector calibration and reconstruction algorithm. A photon calibrator has been used to establish the sign of h(t) and to make an independent partial cross-check of the systematic uncertainties. The uncertainties reached for the latest h(t) version are 5.1% in amplitude, 40 mrad in phase and 20 mu s in timing.

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	Anno
	
				2018
			
	Rivista
	
				CLASSICAL AND QUANTUM GRAVITY
			
	Codice DOI
	
				https://dx.doi.org/10.1088/1361-6382/aadf1a
			
	Citazione
	
				Acernese F,  Adams T,  Agatsuma K,  Aiello L,  Allocca A,  Aloy MA, et al. (2018). Calibration of advanced Virgo and reconstruction of the gravitational wave signal h(t) during the observing run O2. CLASSICAL AND QUANTUM GRAVITY, 35(20), 1-18 [10.1088/1361-6382/aadf1a].
			
	Tutti gli autori
	
						Acernese F; Adams T; Agatsuma K; Aiello L; Allocca A; Aloy MA; Amato A; Antier S; Arene M; Arnaud N; Ascenzi S; Astone P; Aubin F; Babak S; Bacon P; B...espandi

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/997057

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