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In this paper we present the results of the first low frequency all-sky search of continuous gravitational wave signals conducted on Virgo VSR2 and VSR4 data. The search covered the full sky, a frequency range between 20 and 128 Hz with a range of spin-down between −1.0×10−10 and +1.5×10−11 Hz/s, and was based on a hierarchical approach. The starting point was a set of short fast Fourier transforms, of length 8192 s, built from the calibrated strain data. Aggressive data cleaning, in both the time and frequency domains, has been done in order to remove, as much as possible, the effect of disturbances of instrumental origin. On each data set a number of candidates has been selected, using the FrequencyHough transform in an incoherent step. Only coincident candidates among VSR2 and VSR4 have been examined in order to strongly reduce the false alarm probability, and the most significant candidates have been selected. The criteria we have used for candidate selection and for the coincidence step greatly reduce the harmful effect of large instrumental artifacts. Selected candidates have been subject to a follow-up by constructing a new set of longer fast Fourier transforms followed by a further incoherent analysis, still based on the FrequencyHough transform. No evidence for continuous gravitational wave signals was found, and therefore we have set a population-based joint VSR2-VSR4 90% confidence level upper limit on the dimensionless gravitational wave strain in the frequency range between 20 and 128 Hz. This is the first all-sky search for continuous gravitational waves conducted, on data of ground-based interferometric detectors, at frequencies below 50 Hz. We set upper limits in the range between about 10−24 and 2×10−23 at most frequencies. Our upper limits on signal strain show an improvement of up to a factor of ∼2 with respect to the results of previous all-sky searches at frequencies below 80 Hz.
Aasi, J., Abbott, B. ., Abbott, R., Abbott, T. ., Abernathy, M. ., Acernese, F., et al. (2016). First low frequency all-sky search for continuous gravitational wave signals. PHYSICAL REVIEW D, 93(4), 042007-1-042007-25 [10.1103/PhysRevD.93.042007].
First low frequency all-sky search for continuous gravitational wave signals
Aasi, J.;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.;Ain, A.;Ajith, P.;Allen, B.;Allocca, A.;Amariutei, D. .v.;Andersen, M.;Anderson, S. .b.;Anderson, W. .g.;Arai, K.;Araya, M. .c.;Arceneaux, C. .c.;Areeda, J. .s.;Arnaud, N.;Ashton, G.;Aston, S. .m.;Astone, P.;Aufmuth, P.;Aulbert, C.;Babak, S.;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.;Bartlett, J.;Barton, M. .a.;Bartos, I.;Bassiri, R.;Basti, A.;Batch, J. .c.;Baune, C.;Bavigadda, V.;Behnke, B.;Bejger, M.;Belczynski, C.;Bell, A. .s.;Berger, B. .k.;Bergman, J.;Bergmann, G.;Berry, C. .p. .l.;Bersanetti, D.;Bertolini, A.;Betzwieser, J.;Bhagwat, S.;Bhandare, R.;Bilenko, I. .a.;Billingsley, G.;Birch, J.;Birney, R.;Biscans, S.;Bitossi, M.;Biwer, C.;Bizouard, M. .a.;Blackburn, J. .k.;Blair, C. .d.;Blair, D.;Bloemen, S.;Bock, O.;Bodiya, T. .p.;Boer, M.;Bogaert, G.;Bojtos, P.;Bond, C.;Bondu, F.;Bonnand, R.;Bork, R.;Born, M.;Boschi, V.;Bose, Sukanta;Bradaschia, C.;Brady, P. .r.;Braginsky, V. .b.;BRANCHESI, MARICA;Branco, V.;Brau, J. .e.;Briant, T.;Brillet, A.;Brinkmann, M.;Brisson, V.;Brockill, P.;Brooks, A. .f.;Brown, D. .a.;Brown, D.;Brown, D. .d.;Brown, N. .m.;Buchanan, C. .c.;Buikema, A.;Bulik, T.;Bulten, H. .j.;Buonanno, A.;Buskulic, D.;Buy, C.;Byer, R. .l.;Cadonati, L.;Cagnoli, G.;Calderón Bustillo, J.;Calloni, E.;Camp, J. .b.;Cannon, K. .c.;Cao, J.;Capano, C. .d.;Capocasa, E.;Carbognani, F.;Caride, S.;Casanueva Diaz, J.;Casentini, C.;Caudill, S.;Cavaglià, M.;Cavalier, F.;Cavalieri, R.;Celerier, C.;Cella, G.;Cepeda, C.;CERBONI BAIARDI, LORENZO;Cerretani, G.;Cesarini, E.;Chakraborty, R.;Chalermsongsak, T.;Chamberlin, S. .j.;Chao, S.;Charlton, P.;Chassande Mottin, E.;Chen, X.;Chen, Y.;Cheng, C.;Chincarini, A.;Chiummo, A.;Cho, H. .s.;Cho, M.;Chow, J. .h.;Christensen, N.;Chu, Q.;Chua, S.;Chung, S.;Ciani, G.;Clara, F.;Clark, J. .a.;Cleva, F.;Coccia, E.;Cohadon, P. 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V.;Pillant, G.;Pinard, L.;Pinto, I. .m.;Pitkin, M.;Poeld, J. .h.;Poggiani, R.;Post, A.;Powell, J.;Prasad, J.;Predoi, V.;Premachandra, S. .s.;Prestegard, T.;Price, L. .r.;Prijatelj, M.;Principe, M.;Privitera, S.;Prix, R.;Prodi, G. .a.;Prokhorov, L.;Puncken, O.;Punturo, M.;Puppo, P.;Pürrer, M.;Qin, J.;Quetschke, V.;Quintero, E. .a.;Quitzow James, R.;Raab, F. .j.;Rabeling, D. .s.;Rácz, I.;Radkins, H.;Raffai, P.;Raja, S.;Rakhmanov, M.;Rapagnani, P.;Raymond, V.;Razzano, M.;Re, V.;Reed, C. .m.;Regimbau, T.;Rei, L.;Reid, S.;Reitze, D. .h.;Ricci, F.;Riles, K.;Robertson, N. .a.;Robie, R.;Robinet, F.;Rocchi, A.;Rodger, A. .s.;Rolland, L.;Rollins, J. .g.;Roma, V. .j.;Romano, J. .d.;Romano, R.;Romanov, G.;Romie, J. .h.;Rosińska, D.;Rowan, S.;Rüdiger, A.;Ruggi, P.;Ryan, K.;Sachdev, S.;Sadecki, T.;Sadeghian, L.;Saleem, M.;Salemi, F.;Sammut, L.;Sanchez, E.;Sandberg, V.;Sanders, J. .r.;Santiago Prieto, I.;Sassolas, B.;Sathyaprakash, B. .s.;Saulson, P. .r.;Savage, R.;Sawadsky, A.;Schale, P.;Schilling, 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2016
Abstract
In this paper we present the results of the first low frequency all-sky search of continuous gravitational wave signals conducted on Virgo VSR2 and VSR4 data. The search covered the full sky, a frequency range between 20 and 128 Hz with a range of spin-down between −1.0×10−10 and +1.5×10−11 Hz/s, and was based on a hierarchical approach. The starting point was a set of short fast Fourier transforms, of length 8192 s, built from the calibrated strain data. Aggressive data cleaning, in both the time and frequency domains, has been done in order to remove, as much as possible, the effect of disturbances of instrumental origin. On each data set a number of candidates has been selected, using the FrequencyHough transform in an incoherent step. Only coincident candidates among VSR2 and VSR4 have been examined in order to strongly reduce the false alarm probability, and the most significant candidates have been selected. The criteria we have used for candidate selection and for the coincidence step greatly reduce the harmful effect of large instrumental artifacts. Selected candidates have been subject to a follow-up by constructing a new set of longer fast Fourier transforms followed by a further incoherent analysis, still based on the FrequencyHough transform. No evidence for continuous gravitational wave signals was found, and therefore we have set a population-based joint VSR2-VSR4 90% confidence level upper limit on the dimensionless gravitational wave strain in the frequency range between 20 and 128 Hz. This is the first all-sky search for continuous gravitational waves conducted, on data of ground-based interferometric detectors, at frequencies below 50 Hz. We set upper limits in the range between about 10−24 and 2×10−23 at most frequencies. Our upper limits on signal strain show an improvement of up to a factor of ∼2 with respect to the results of previous all-sky searches at frequencies below 80 Hz.
Aasi, J., Abbott, B. ., Abbott, R., Abbott, T. ., Abernathy, M. ., Acernese, F., et al. (2016). First low frequency all-sky search for continuous gravitational wave signals. PHYSICAL REVIEW D, 93(4), 042007-1-042007-25 [10.1103/PhysRevD.93.042007].
Aasi, J.; Abbott, B. .p.; Abbott, R.; Abbott, T. .d.; Abernathy, M. .r.; Acernese, F.; Ackley, K.; Adams, C.; Adams, T.; Addesso, P.; Adhikari, R. ...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/865986
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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.
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