author:"Anderson, S." | Pollux - Fachinformationsdienst Politikwissenschaft

Open Access#612016

Prospects for Observing and Localizing Gravitational-Wave Transients with Advanced LIGO and Advanced Virgo

Abbott, B. P; Abbott, R; Abbott, T. D; Abernathy, M. R; Acernese, F; Ackley, K; Adams, C; Adams, T

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; Altin, P. A; Amariutei, D. V; Anderson, S. B; Anderson, W. G; Arai, K; Araya, M. C; Arceneaux, C. C; Areeda, J. S; Arnaud, N; Arun, K. G; Ashton, G; Ast, M; 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; Barta, D; Bartlett, J; Bartos, I; Bassiri, R; Basti, A; Batch, J. C; Baune, C; Bavigadda, V; Bazzan, M; Behnke, B; Bejger, M; Belczynski, C; Bell, A. S; Bell, C. J; 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; Bisht, A; Bitossi, M; Biwer, C; Bizouard, M. A; Blackburn, J. K; Blair, C. D; Blair, D; Blair, R. M; Bloernen, S; Bock, O; Bodiya, T. P; Boer, M; Bogaert, G; Bogan, C; Bohe, A; Bojtos, P; Bond, C; Bondu, F; Bonnand, R; Bork, R; Boschi, V; Bose, S; 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; Brooks, A. F; Brown, D. A; 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; Cahillane, C; Calderon Bustillo, J; Callister, T; Calloni, E; Camp, J. B; Cannon, K. C; Cao, J; Capano, C. D; Capocasa, E; Carbognani, F; Caride, S; Diaz, J. Casanueva; Casentini, C; Caudill, S; Cavaglia, M; Cavalier, F; Cavalieri, R; Cella, G; Cepeda, C; Baiardi, L. Cerboni; Cerretani, G; Cesarini, E; Chakraborty, R; Chalermsongsak, T; Chamberlin, S. J; Chan, M; Chao, S; Charlton, P; Chassande-Mottin, E; Chen, H. Y; 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. -F; Coila, A; Collette, C. G; Constancio, M; Conte, A; Conti, L; Cook, D; 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; Coward, D. M; Cowart, M. J; Coyne, D. C; Coyne, R; Craig, K; Creighton, J. D. E; Cripe, J; Crowder, S. G; Cumming, A; Cunningham, L; Cuoco, E; Dal Canton, T; Danilishin, S. L; D'Antonio, S; Danzmann, K; Darman, N. S; Dattilo, V; Dave, I; Daveloza, H. P; Davier, M; Davies, G. S; Daw, E. J; Day, R; DeBra, D; Debreczeni, G; Degallaix, J; De laurentis, M; Deleglise, S; Del Pozzo, W; Denker, T; Dent, T; Dereli, H; Dergachev, V; DeRosa, R; De Rosa, R; DeSalvo, R; Dhurandhar, S; Diaz, M. C; Di Fiore, L; Di Giovanni, M; Di Lieto, A; Di Palma, I; Di Virgilio, A; Dojcinoski, G; Dolique, V; Donovan, F; Dooley, K. L; Doravari, S; Douglas, R; Downes, T. P; Drago, M; Drever, R. W. P; Driggers, J. C; Du, Z; Ducrot, M; Dwyer, S. E; Edo, T. B; Edwards, M. C; Effler, A; Eggenstein, H. -B; Ehrens, P; Eichholz, J. M; Eikenberry, S. S; Engels, W; Essick, R. C; Etze, T; Evans, M; Evans, T. M; Everett, R; Factourovich, M; Fafone, V; Fair, H; Fairhurst, S; Fan, X; Fang, Q; Farinon, S; Farr, B; Farr, W. M; Favata, M; Fays, M; Fehrmann, H; Fejer, M. M; Ferrante, I; Ferreira, E. C; Ferrini, F; Fidecaro, F; Fiori, I; Fisher, R. P; Flaminio, R; Fletcher, M; Fournier, J. -D; Franco, S; Frasca, S; Frasconi, F; Frei, Z; Freise, A; Frey, R; Fricke, T. T; Fritschel, P; Frolov, V. V; Fulda, P; Fyffe, M; Gabbard, H. A. G; Gair, J. R; Garnrnaitoni, L; Gaonkar, S. G; Garufi, F; Gatto, A; Gaur, G; Gehrels, N; Gemme, G; Gendre, B; Genin, E; Gennai, A; George, J; Gergely, L; Germain, V; Ghosh, A; Ghosh, S; Giaime, J. A; Giardina, K. D; Giazotto, A; Gill, K; Glaefke, A; Goetz, E; Goetz, R; Gondan, L; Gonzalez, G; Castro, J. M. Gonzalez; Gopakumar, A; Gordon, N. A; Gorodetsky, M. L; Gossan, S. E; Gosselin, M; Gouaty, R; Graef, C; Graff, P. B; Granata, M; Grant, A; Gras, S; Gray, C; Greco, G; Green, A. C; Groot, P; Grote, H; Grunewald, S; Guidi, G. M; Guo, X; Gupta, A; Gupta, M. K; Gushwa, K. E; Gustafson, E. K; Gustafson, R; Hacker, J. J; Hall, B. R; Hall, E. D; Hammond, G; Haney, M; Hanke, M. M; Hanks, J; Hanna, C; Hannam, M. D; Hanson, J; Hardwick, T; Harms, J; Harry, G. M; Harry, I. W; Hart, M. J; Hartman, M. T; Haster, C. -J; Haughian, K; Heidmann, A; Heintze, M. C; Heitmann, H; Hello, P; Hemming, G; Hendry, M; Heng, I. S; Hennig, J; Heptonstall, A. W; Heurs, M; Hild, S; Hoak, D; Hodge, K. A; Hofman, D; Hollitt, S. E; Holt, K; Holz, D. E; Hopkins, P; Hosken, D. J; Hough, J; Houston, E. A; Howell, E. J; Hu, Y. M; Huang, S; Huerta, E. A; Huet, D; Hughey, B; Husa, S; Huttner, S. H; Huynh-Dinh, T; Idrisy, A; Indik, N; Ingram, D. R; Inta, R; Isa, H. N; Isac, J. -M; Isi, M; Islas, G; Isogai, T; Iyer, B. R; Izumi, K; Jacqmin, T; Jang, H; Jani, K; Jaranowski, P; Jawahar, S; Jimenez-Forteza, F; Johnson, W. W; Jones, D. I; Jones, R; Jonker, R. J. G; Ju, L; Haris, K; Kalaghatgi, C. V; Kalogera, V; Kandhasamy, S; Kang, G; Kanner, J. B; Karki, S; Kasprzack, M; Katsavounidis, E; Katzman, W; Kaufer, S; Kaur, T; Kawabe, K; Kawazoe, F; Kefelian, F; Kehl, M. S; Keite, D; Kelley, D. B; Kells, W; Kennedy, R; Key, J. S; Khalaidovski, A; Khalili, F. Y; Khan, S; Khan, Z; Khazanov, E. A; Kijbunchoo, N; Kim, C; Kirmo, J; Kina, K; Kim, N; Kim, Y. -M; King, E. J; King, P. J; Kinzel, D. L; Kissel, J. S; Kleybolte, L; Klimenko, S; Koehlenbeck, S. M; Kokeyama, K; Koley, S; Kondrashov, V; Kontos, A; Korobko, M; Korth, W. Z; Kowalska, I; Kozak, D. B; Kringel, V; Krishnan, B; Krolak, A; Krueger, C; Kuehn, G; Kumar, P; Kuo, L; Kutynia, A; Lackey, B. D; Landry, M; Lange, J; Lantz, B; Lasky, P. D; Lazzarini, A; Lazzaro, C; Leaci, P; Leavey, S; Lebigot, E; Lee, C. H; Lee, H. K; Lee, H. M; Lee, K; Lenon, A; Leonardi, M; Leong, J. R; Leroy, N; Letendre, N; Levin, Y; Levine, B. M; Li, T. G. F; Libson, A; Littenberg, T. B; Lockerbie, N. A; Logue, J; Lombardi, A. L; Lord, J. E; Lorenzini, M; Loriette, V; Lormand, M; Losurdo, G; Lough, J. D; Lueck, H; Lundgren, A. P; Luo, J; Lynch, R; Ma, Y; MacDonald, T; Machenschalk, B; MacInnis, M; Macleod, D. M; Magana-Sandoval, F; Magee, R. M; Mageswaran, M; Majorana, E; Maksimovic, I; Malvezzi, V; Man, N; Mandel, I; Mandic, V; MaIlga, V; Mansell, G. L; Manske, M; Mantovani, M; Marchesoni, F; Marion, F; Marka, S; Marka, Z; Markosyan, A. S; Maros, E; Martelli, F; Martellini, L; Martin, I. W; Martin, R. M; Martynov, D. V; Marx, J. N; Mason, K; Masserot, A; Massinger, T. J; Masso-Reid, M; Matichard, F; Matone, L; Mavalvala, N; Mazumder, N; Mazzolo, G; McCarthy, R; McClelland, D. E; McCormick, S; McGuire, S. C; McIntyre, G; McIver, J; McManus, D. J; McWilliams, S. T; Meacher, D; Meadors, G. D; Meidam, J; Melatos, A; Mendell, G; Mendoza-Gandara, D; Mercer, R. A; Merilh, E; Merzougui, M; Meshkov, S; Messenger, C; Messick, C; Meyers, P. M; Mezzani, F; Miao, H; Michel, C; Middleton, H; Mikhailov, E. E; Milano, L; Miller, J; Millhouse, M; Minenkov, Y; Ming, J; Mirshekari, S; Mishra, C; Mitra, S; Mitrofanov, V. P; Mitselmakher, G; Mittleman, R; Moggi, A; Mohan, M; Mohapatra, S. R. P; Montani, M; Moore, B. C; Moore, C. J; Moraru, D; Moreno, G; Morriss, S. R; Mossavi, K; Mours, B; Mow-Lowry, C. M; Mueller, C. L; Mueller, G; Muir, A. W; Mukherjee, Arunava; Mukherjee, D; Mukherjee, S; Mullavey, A; Munch, J; Murphy, D. J; Murray, P. G; Mytidis, A; Nardecchia, I; Naticchioni, L; Nayak, R. K; Necula, V; Nedkova, K; Nelemans, G; Neri, M; Neunzert, A; Newton, G; Nguyen, T. T; Nielsen, A. B; Nissanke, S; Nitz, A; Nocera, F; Nolting, D; Normandin, M. E. N; Nuttall, L. K; Oberling, J; Ochsner, E; O'De, J; Oelker, E; Ogin, G. H; Oh, J. J; Oh, S. H; Ohme, F; Oliver, M; Oppermann, P; Oram, R. J; O'Reilly, B; O'Shaughnessy, R; Ott, C. D; Ottaway, D. J; Ottens, R. S; Overmier, H; Owen, B. J; Pai, A; Pai, S. A; Palamos, J. R; Palashov, O; Palomba, C; Pal-Singh, A; Pan, H; Pankow, C; Pannarale, F; Pant, B. C; Paoletti, F; Paoli, A; Papa, M. A; Paris, H. R; Parker, W; Pascucci, D; Pasqualetti, A; Passaquieti, R; Passuello, D; Patrick, Z; Pearlstone, B. L; Pedraza, M; Pedurand, R; Pekowsky, L; Pele, A; Penn, S; Pereira, R; Perreca, A; Phelps, M; Piccinni, O; Pichot, M; Piergiovanni, F; Pierro, V; Pillant, G; Pinard, L; Pinto, I. M; Pitkin, M; Poggiani, R; Post, A; Powell, J; Prasad, J; Predoi, V; Premachandra, S. S; Prestegard, T; Price, L. 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F; Williams, R. D; Williamson, A. R; Willis, J. L; Willke, B; Wimmer, M. H; Winkler, W; Wipf, C. C; Wittel, H; Woan, G; Worden, J; Wright, J. L; Wu, G; Yablon, J; Yam, W; Yamamoto, H; Yancey, C. C; Yap, M. J; Yu, H; Yvert, M; ZadroZny, A; Zangrando, L; Zanolin, M; Zendri, J. -P; Zevin, M; Zhang, F; Zhang, L; Zhang, M; Zhang, Y; Zhao, C; Zhou, M; Zhou, Z; Zhu, X. J; Zucker, M. E; Zuraw, S. E; Zweizigl, J; LIGO Sci Collaboration; Virgo Collaboration

Advanced LIGO ; Science and Technology Facilities Council (STFC) of the United Kingdom ; Australian Research Council ; Council of Scientific and Industrial Research of India, Department of Science and Technology, India ; Science & Engineering Research Board (SERB), India ; Ministry of Human Resource Development, India ; Spanish Ministerio de Economia y Competitividad ; Conselleria d'Economia i Competitivitat and Conselleria d'Educacio, Cultura i Universitats of the Govern de les Illes Balears ; National Science Centre of Poland ; FOCUS Programme of Foundation for Polish Science ; European Union ; Royal Society ; Scottish Funding Council ; Scottish Universities Physics Alliance ; Lyon Institute of Origins (LIO) ; National Research Foundation of Korea ; Industry Canada ; Province of Ontario through the Ministry of Economic Development and Innovation ; National Science and Engineering Research Council Canada ; Brazilian Ministry of Science, Technology, and Innovation ; Research Corporation, Ministry of Science and Technology (MOST), Taiwan ; Kavli Foundation ; Science and Technology Facilities Council ; Science and Technology Facilities Council: ST/L000954/1 Gravitational Waves ; Science and Technology Facilities Council: ST/L000946/1 ; Science and Technology Facilities Council: ST/I006269/1 Gravitational Waves ; Science and Technology Facilities Council: ST/I006242/1 Gravitational Waves ; Science and Technology Facilities Council: ST/L003465/1 ; Science and Technology Facilities Council: ST/J000019/1 ; Science and Technology Facilities Council: ST/N000072/1 ; Science and Technology Facilities Council: ST/K000845/1 ; Science and Technology Facilities Council: ST/I006269/1 ; Science and Technology Facilities Council: ST/N000633/1 ; Science and Technology Facilities Council: ST/M000931/1 ; Science and Technology Facilities Council: ST/K005014/1 ; Science and Technology Facilities Council: PPA/G/S/2002/00652 ; Science and Technology Facilities Council: Gravitational Waves ; Science and Technology Facilities Council: ST/N00003X/1 ; We present a possible observing scenario for the Advanced LIGO and Advanced Virgo 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 determine the expected 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 considered the most promising 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 90% 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 deg(2) to 20 deg(2) will require at least three detectors of sensitivity within a factor of similar to 2 of each other and with a broad frequency bandwidth. Should the third LIGO detector be relocated to India as expected, a significant fraction of gravitational-wave signals will be localized to a few square degrees by gravitational-wave observations alone.

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Open Access#622016

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

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, M; 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; Bustillo, J. Calderon; Calloni, E; Camp, J. B; Cannon, K. C; Cao, J; Capano, C. D; Capocasa, E; Carbognani, F; Caride, S; Diaz, J. Casanueva; Casentini, C; Caudill, S; Cavaglia, M; Cavalier, F; Cavalieri, R; Celerier, C; Cella, G; Cepeda, C; Baiardi, L. Cerboni; 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. -F; Colla, A; Collette, C. G; Colombini, M; Constancio, M; Conte, A; Conti, L; Cook, D; Corbitt, T. R; Cornish, N; Corsi, A; Costa, C. A; Coughlin, M. W; Coughlin, S. B; Coulon, J. -P; Countryman, S. T; Couvares, P; Coward, D. M; Cowart, M. J; Coyne, D. C; Coyne, R; Craig, K; Creighton, J. D. E; Cripe, J; Crowder, S. G; Cumming, A; Cunningham, L; Cuoco, E; Dal Canton, T; Damjanic, M. D; Danilishin, S. L; D'Antonio, S; Danzmann, K; Darman, N. S; Dattilo, V; Dave, I; Daveloza, H. P; Davier, M; Davies, G. S; Daw, E. J; Day, R; Debra, D; Debreczeni, G; Degallaix, J; De laurentis, M; Deleglise, S; Del Pozzo, W; Denker, T; Dent, T; Dereli, H; Dergachev, V; De Rosa, R; DeRosa, R. T; DeSalvo, R; Dhurandhar, S; Dia, M. C; Di Fiore, L; Di Giovanni, M; Di Lieto, A; Di Palma, I; Di Virgilio, A; Dojcinoski, G; Dolique, V; Dominguez, E; Donovan, F; Dooley, K. 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Australian Research Council ; International Science Linkages program of the Commonwealth of Australia ; Council of Scientific and Industrial Research of India, Department of Science and Technology, India ; Science and Engineering Research Board, India ; Ministry of Human Resource Development, India ; Spanish Ministerio de Economia y Competitividad ; Conselleria d'Economia i Competitivitat ; Cultura i Universitats of the Govern de les Illes Balears ; Foundation for Fundamental Research on Matter - Netherlands Organisation for Scientific Research ; National Science Centre of Poland ; European Union ; Royal Society ; Scottish Funding Council ; Scottish Universities Physics Alliance ; National Aeronautics and Space Administration ; Hungarian Scientific Research Fund ; Lyon Institute of Origins ; National Research Foundation of Korea ; Industry Canada ; Province of Ontario through the Ministry of Economic Development and Innovation ; National Science and Engineering Research Council Canada ; Brazilian Ministry of Science, Technology, and Innovation ; Carnegie Trust ; Leverhulme Trust ; David and Lucile Packard Foundation ; Research Corporation ; Alfred P. Sloan Foundation ; Conselleria d'Educacio ; Science and Technology Facilities Council ; Science and Technology Facilities Council: ST/L000962/1 Gravitational Waves ; Science and Technology Facilities Council: 1362895 ; Science and Technology Facilities Council: ST/I006285/1 Gravitational Waves ; Science and Technology Facilities Council: ST/L000938/1 Gravitational Waves ; Science and Technology Facilities Council: ST/L000962/1 ; Science and Technology Facilities Council: ST/K000845/1 ; Science and Technology Facilities Council: Gravitational Waves ; Science and Technology Facilities Council: ST/K005014/1 ; Science and Technology Facilities Council: ST/L003465/1 ; Science and Technology Facilities Council: ST/L000938/1 ; Science and Technology Facilities Council: ST/N000064/1 ; Science and Technology Facilities Council: ST/L000946/1 ; Science and Technology Facilities Council: ST/L000954/1 Gravitational Waves ; Science and Technology Facilities Council: ST/I006269/1 Gravitational Waves ; Science and Technology Facilities Council: ST/I006269/1 ; Science and Technology Facilities Council: ST/J000019/1 ; Science and Technology Facilities Council: ST/I006242/1 Gravitational Waves ; 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 x 10(-10) and +1.5 x 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 Frequency Hough 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 Frequency Hough 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 x 10(-23) at most frequencies. Our upper limits on signal strain show an improvement of up to a factor of similar to 2 with respect to the results of previous all-sky searches at frequencies below 80 Hz.

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ASTROPHYSICAL IMPLICATIONS OF THE BINARY BLACK HOLE MERGER GW150914

Abbott, B. P; Abbott, R; Abbott, T. D; Abernathy, M. R; Acernese, F; Ackley, K; Adams, C; Adams, T

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United States National Science Foundation (NSF) ; Science and Technology Facilities Council (STFC) of the United Kingdom ; MaxPlanck- Society (MPS) ; State of Niedersachsen/Germany ; Australian Research Council ; Netherlands Organisation for Scientific Research ; EGO consortium ; Council of Scientific and Industrial Research of India, Department of Science and Technology, India ; Science AMP; Engineering Research Board (SERB), India ; Ministry of Human Resource Development, India ; Spanish Ministerio de Economia y Competitividad ; Conselleria d'Economia i Competitivitat and Conselleria d'Educacio Cultura i Universitats of the Govern de les Illes Balears ; National Science Centre of Poland ; European Union ; Royal Society ; Scottish Funding Council ; Scottish Universities Physics Alliance ; Lyon Institute of Origins (LIO) ; National Research Foundation of Korea, Industry Canada ; Province of Ontario through the Ministry of Economic Development and Innovation ; National Science and Engineering Research Council Canada ; Brazilian Ministry of Science, Technology, and Innovation ; Leverhulme Trust ; Research Corporation, Ministry of Science and Technology (MOST), Taiwan ; Kavli Foundation ; NSF ; STFC ; MPS ; INFN ; CNRS ; Science and Technology Facilities Council ; State of Niedersachsen/Germany: GEO600 ; Science and Technology Facilities Council: ST/K005014/1 ; Science and Technology Facilities Council: ST/L000938/1 Gravitational Waves ; Science and Technology Facilities Council: ST/N000072/1 ; Science and Technology Facilities Council: PPA/G/S/2002/00652 ; Science and Technology Facilities Council: ST/I006269/1 ; Science and Technology Facilities Council: ST/L000962/1 ; Science and Technology Facilities Council: ST/J00166X/1 ; Science and Technology Facilities Council: ST/M006735/1 ; Science and Technology Facilities Council: ST/I006285/1 Gravitational Waves ; Science and Technology Facilities Council: ST/J000019/1 Gravitational Waves ; Science and Technology Facilities Council: ST/I006285/1 ; Science and Technology Facilities Council: ST/J000019/1 ; Science and Technology Facilities Council: 1362895 ; Science and Technology Facilities Council: ST/M000931/1 ; Science and Technology Facilities Council: ST/L000962/1 Gravitational Waves ; Science and Technology Facilities Council: ST/L000938/1 ; Science and Technology Facilities Council: ST/K000845/1 ; Science and Technology Facilities Council: ST/I006242/1 Gravitational Waves ; Science and Technology Facilities Council: ST/L003465/1 ; Science and Technology Facilities Council: ST/G504284/1 ; Science and Technology Facilities Council: ST/I006269/1 Gravitational Waves ; Science and Technology Facilities Council: ST/L000954/1 Gravitational Waves ; Science and Technology Facilities Council: ST/N00003X/1 ; Science and Technology Facilities Council: Gravitational Waves ; Science and Technology Facilities Council: ST/N000633/1 ; Science and Technology Facilities Council: ST/L000946/1 ; The discovery of the gravitational-wave (GW) source GW150914 with the Advanced LIGO detectors provides the first observational evidence for the existence of binary black hole (BH) systems that inspiral and merge within the age of the universe. Such BH mergers have been predicted in two main types of formation models, involving isolated binaries in galactic fields or dynamical interactions in young and old dense stellar environments. The measured masses robustly demonstrate that relatively heavy BHs (greater than or similar to 25M(circle dot)) can form in nature. This discovery implies relatively weak massive-star winds and thus the formation of GW150914 in an environment with a metallicity lower than about 1/2 of the solar value. The rate of binary-BH (BBH) mergers inferred from the observation of GW150914 is consistent with the higher end of rate predictions (greater than or similar to 1 Gpc(-3) yr(-1)) from both types of formation models. The low measured redshift (z similar or equal to 0.1) of GW150914 and the low inferred metallicity of the stellar progenitor imply either BBH formation in a low-mass galaxy in the local universe and a prompt merger, or formation at high redshift with a time delay between formation and merger of several Gyr. This discovery motivates further studies of binary-BH formation astrophysics. It also has implications for future detections and studies by Advanced LIGO and Advanced Virgo, and GW detectors in space.

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SUPPLEMENT: LOCALIZATION AND BROADBAND FOLLOW-UP OF THE GRAVITATIONAL-WAVE TRANSIENT GW150914 (2016, ApJL, 826, L13)

Abbott, B. P; Abbott, R; Abbott, T. D; Abernathy, M. R; Acernese, F; Ackley, K; Adams, C; Adams, T

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UK Space Agency: ST/P002196/1 ; This Supplement provides supporting material for Abbott et al. (2016a). We briefly summarize past electromagnetic (EM) follow-up efforts as well as the organization and policy of the current EM follow-up program. We compare the four probability sky maps produced for the gravitational-wave transient GW150914, and provide additional details of the EM follow-up observations that were performed in the different bands.

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Prospects for Observing and Localizing Gravitational-Wave Transients with Advanced LIGO and Advanced Virgo

First low frequency all-sky search for continuous gravitational wave signals

ASTROPHYSICAL IMPLICATIONS OF THE BINARY BLACK HOLE MERGER GW150914

SUPPLEMENT: LOCALIZATION AND BROADBAND FOLLOW-UP OF THE GRAVITATIONAL-WAVE TRANSIENT GW150914 (2016, ApJL, 826, L13)

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Prospects for Observing and Localizing Gravitational-Wave Transients with Advanced LIGO and Advanced Virgo

First low frequency all-sky search for continuous gravitational wave signals

ASTROPHYSICAL IMPLICATIONS OF THE BINARY BLACK HOLE MERGER GW150914

SUPPLEMENT: LOCALIZATION AND BROADBAND FOLLOW-UP OF THE GRAVITATIONAL-WAVE TRANSIENT GW150914 (2016, ApJL, 826, L13)

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