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We present possible observing scenarios for the Advanced LIGO, Advanced Virgo and KAGRA gravitational-wave detectors over the next decade, with the intention of providing information to the astronomy community to facilitate planning for multi-messenger astronomy with gravitational waves. We estimate the sensitivity of the network to transient gravitational-wave signals, and study the capability of the network to determine the sky location of the source. We report our findings for gravitational-wave transients, with particular focus on gravitational-wave signals from the inspiral of binary neutron star systems, which are the most promising targets for multi-messenger astronomy. The ability to localize the sources of the detected signals depends on the geographical distribution of the detectors and their relative sensitivity, and [Formula: see text] credible regions can be as large as thousands of square degrees when only two sensitive detectors are operational. Determining the sky position of a significant fraction of detected signals to areas of 5-[Formula: see text] requires at least three detectors of sensitivity within a factor of [Formula: see text] of each other and with a broad frequency bandwidth. When all detectors, including KAGRA and the third LIGO detector in India, reach design sensitivity, a significant fraction of gravitational-wave signals will be localized to a few square degrees by gravitational-wave observations alone.
Prospects for observing and localizing gravitational-wave transients with advanced LIGO, advanced Virgo and KAGRA / Abbott, B.P., Abbott, R., Abbott, T.D., Abernathy, M.R., Acernese, F., Ackley, K., Adams, C., Adams, T., Addesso, P., Adhikari, R.X., Adya, V.B., Affeldt, C., Agathos, M., Agatsuma, K., Aggarwal, N., Aguiar, O.D., Aiello, L., Ain, A., Ajith, P., Akutsu, T., et al.. - In: LIVING REVIEWS IN RELATIVITY. - ISSN 1433-8351. - 21:1(2018). [10.1007/s41114-018-0012-9]
Prospects for observing and localizing gravitational-wave transients with advanced LIGO, advanced Virgo and KAGRA
Abbott, B P;Abbott, R;Abbott, T D;Abernathy, M R;Acernese, F;Ackley, K;Adams, C;Adams, T;Addesso, P;Adhikari, R X;Adya, V B;Affeldt, C;Agathos, M;Agatsuma, K;Aggarwal, N;Aguiar, O D;Aiello, L;Ain, A;Ajith, P;Akutsu, T;Allen, B;Allocca, A;Altin, P A;Ananyeva, A;Anderson, S B;Anderson, W G;Ando, M;Appert, S;Arai, K;Araya, A;Araya, M C;Areeda, J S;Arnaud, N;Arun, K G;Asada, H;Ascenzi, S;Ashton, G;Aso, Y;Ast, M;Aston, S M;Astone, P;Atsuta, S;Aufmuth, P;Aulbert, C;Avila-Alvarez, A;Awai, K;Babak, S;Bacon, P;Bader, M K M;Baiotti, L;Baker, P T;Baldaccini, F;Ballardin, G;Ballmer, S W;Barayoga, J C;Barclay, S E;Barish, B C;Barker, D;Barone, F;Barr, B;Barsotti, L;Barsuglia, M;Barta, D;Bartlett, J;Barton, M A;Bartos, I;Bassiri, R;Basti, A;Batch, J C;Baune, C;Bavigadda, V;Bazzan, M;Bécsy, B;Beer, C;Bejger, M;Belahcene, I;Belgin, M;Bell, A S;Berger, B K;Bergmann, G;Berry, C P L;Bersanetti, D;Bertolini, A;Betzwieser, J;Bhagwat, S;Bhandare, R;Bilenko, I A;Billingsley, G;Billman, C R;Birch, J;Birney, R;Birnholtz, O;Biscans, S;Bisht, A;Bitossi, M;Biwer, C;Bizouard, M A;Blackburn, J K;Blackman, J;Blair, C D;Blair, D G;Blair, R M;Bloemen, S;Bock, O;Boer, M;Bogaert, G;Bohe, A;Bondu, F;Bonnand, R;Boom, B A;Bork, R;Boschi, V;Bose, S;Bouffanais, Y;Bozzi, A;Bradaschia, C;Brady, P R;Braginsky, V B;Branchesi, M;Brau, J E;Briant, T;Brillet, A;Brinkmann, M;Brisson, V;Brockill, P;Broida, J E;Brooks, A F;Brown, D A;Brown, D D;Brown, N M;Brunett, S;Buchanan, C C;Buikema, A;Bulik, T;Bulten, H J;Buonanno, A;Buskulic, D;Buy, C;Byer, R L;Cabero, M;Cadonati, L;Cagnoli, G;Cahillane, C;Calderón Bustillo, J;Callister, T A;Calloni, E;Camp, J B;Cannon, K C;Cao, H;Cao, J;Capano, C D;Capocasa, E;Carbognani, F;Caride, S;Casanueva Diaz, J;Casentini, C;Caudill, S;Cavaglià, M;Cavalier, F;Cavalieri, R;Cella, G;Cepeda, C B;Cerboni Baiardi, L;Cerretani, G;Cesarini, E;Chamberlin, S J;Chan, M;Chao, S;Charlton, P;Chassande-Mottin, E;Cheeseboro, B D;Chen, H Y;Chen, Y;Cheng, H-P;Chincarini, A;Chiummo, A;Chmiel, T;Cho, H S;Cho, M;Chow, J H;Christensen, N;Chu, Q;Chua, A J K;Chua, S;Chung, S;Ciani, G;Clara, F;Clark, J A;Cleva, F;Cocchieri, C;Coccia, E;Cohadon, P-F;Colla, A;Collette, C G;Cominsky, L;Constancio, M;Conti, L;Cooper, S J;Corbitt, T R;Cornish, N;Corsi, A;Cortese, S;Costa, C A;Coughlin, M W;Coughlin, S B;Coulon, J-P;Countryman, S T;Couvares, P;Covas, P B;Cowan, E E;Coward, D M;Cowart, M J;Coyne, D C;Coyne, R;Creighton, J D E;Creighton, T D;Cripe, J;Crowder, S G;Cullen, T J;Cumming, A;Cunningham, L;Cuoco, E;Canton, T Dal;Danilishin, S L;D'Antonio, S;Danzmann, K;Dasgupta, A;Da Silva Costa, C F;Dattilo, V;Dave, I;Davier, M;Davies, G S;Davis, D;Daw, E J;Day, B;Day, R;De, S;DeBra, D;Debreczeni, G;Degallaix, J;De Laurentis, M;Deléglise, S;Del Pozzo, W;Denker, T;Dent, T;Dergachev, V;De Rosa, R;De Rosa, R T;DeSalvo, R;Devine, R C;Dhurandhar, S;Díaz, M C;Fiore, L Di;Di Giovanni, Matteo;Girolamo, T Di;Lieto, A;Di Pace, S;Di Palma, I;Di;Virgilio, A Di;Doctor, Z;Doi, K;Dolique, V;Donovan, F;Dooley, K 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A;Lazzaro, C;Leaci, P;Leavey, S;Lebigot, E O;Lee, C H;Lee, H K;Lee, H M;Lee, H W;Lee, K;Lehmann, J;Lenon, A;Leonardi, M;Leong, J R;Leroy, N;Letendre, N;Levin, Y;Li, T G F;Libson, A;Littenberg, T B;Liu, J;Lockerbie, N A;Lombardi, A L;London, L T;Lord, J E;Lorenzini, M;Loriette, V;Lormand, M;Losurdo, G;Lough, J D;Lousto, C O;Lovelace, G;Lück, H;Lundgren, A P;Lynch, R;Ma, Y;Macfoy, S;Machenschalk, B;MacInnis, M;Macleod, D M;Magaña-Sandoval, F;Majorana, E;Maksimovic, I;Malvezzi, V;Man, N;Mandic, V;Mangano, V;Mano, S;Mansell, G L;Manske, M;Mantovani, M;Marchesoni, F;Marchio, M;Marion, F;Márka, S;Márka, Z;Markosyan, A S;Maros, E;Martelli, F;Martellini, L;Martin, I W;Martynov, D V;Mason, K;Masserot, A;Massinger, T J;Masso-Reid, M;Mastrogiovanni, S;Matichard, F;Matone, L;Matsumoto, N;Matsushima, F;Mavalvala, N;Mazumder, N;McCarthy, R;McClelland, D E;McCormick, S;McGrath, C;McGuire, S C;McIntyre, G;McIver, J;McManus, D J;McRae, T;McWilliams, S T;Meacher, D;Meadors, G D;Meidam, J;Melatos, 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2018
Abstract
We present possible observing scenarios for the Advanced LIGO, Advanced Virgo and KAGRA gravitational-wave detectors over the next decade, with the intention of providing information to the astronomy community to facilitate planning for multi-messenger astronomy with gravitational waves. We estimate the sensitivity of the network to transient gravitational-wave signals, and study the capability of the network to determine the sky location of the source. We report our findings for gravitational-wave transients, with particular focus on gravitational-wave signals from the inspiral of binary neutron star systems, which are the most promising targets for multi-messenger astronomy. The ability to localize the sources of the detected signals depends on the geographical distribution of the detectors and their relative sensitivity, and [Formula: see text] credible regions can be as large as thousands of square degrees when only two sensitive detectors are operational. Determining the sky position of a significant fraction of detected signals to areas of 5-[Formula: see text] requires at least three detectors of sensitivity within a factor of [Formula: see text] of each other and with a broad frequency bandwidth. When all detectors, including KAGRA and the third LIGO detector in India, reach design sensitivity, a significant fraction of gravitational-wave signals will be localized to a few square degrees by gravitational-wave observations alone.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1655838
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simulazione ASN
Il report seguente simula gli indicatori relativi alla propria produzione scientifica in relazione alle soglie ASN 2023-2025 del proprio SC/SSD. Si ricorda che il superamento dei valori soglia (almeno 2 su 3) è requisito necessario ma non sufficiente al conseguimento dell'abilitazione. La simulazione si basa sui dati IRIS e sugli indicatori bibliometrici alla data indicata e non tiene conto di eventuali periodi di congedo obbligatorio, che in sede di domanda ASN danno diritto a incrementi percentuali dei valori. La simulazione può differire dall'esito di un’eventuale domanda ASN sia per errori di catalogazione e/o dati mancanti in IRIS, sia per la variabilità dei dati bibliometrici nel tempo. Si consideri che Anvur calcola i valori degli indicatori all'ultima data utile per la presentazione delle domande.
La presente simulazione è stata realizzata sulla base delle specifiche raccolte sul tavolo ER del Focus Group IRIS coordinato dall’Università di Modena e Reggio Emilia e delle regole riportate nel DM 589/2018 e allegata Tabella A. Cineca, l’Università di Modena e Reggio Emilia e il Focus Group IRIS non si assumono alcuna responsabilità in merito all’uso che il diretto interessato o terzi faranno della simulazione. Si specifica inoltre che la simulazione contiene calcoli effettuati con dati e algoritmi di pubblico dominio e deve quindi essere considerata come un mero ausilio al calcolo svolgibile manualmente o con strumenti equivalenti.
