Literature DB >> 16384203

Upper limits on a stochastic background of gravitational waves.

B Abbott1, R Abbott, R Adhikari, J Agresti, P Ajith, B Allen, J Allen, R Amin, S B Anderson, W G Anderson, M Araya, H Armandula, M Ashley, C Aulbert, S Babak, R Balasubramanian, S Ballmer, B C Barish, C Barker, D Barker, M A Barton, K Bayer, K Belczynski, J Betzwieser, B Bhawal, I A Bilenko, G Billingsley, E Black, K Blackburn, L Blackburn, B Bland, L Bogue, R Bork, S Bose, P R Brady, V B Braginsky, J E Brau, D A Brown, A Buonanno, D Busby, W E Butler, L Cadonati, G Cagnoli, J B Camp, J Cannizzo, K Cannon, L Cardenas, K Carter, M M Casey, P Charlton, S Chatterji, Y Chen, D Chin, N Christensen, T Cokelaer, C N Colacino, R Coldwell, D Cook, T Corbitt, D Coyne, J D E Creighton, T D Creighton, J Dalrymple, E D'Ambrosio, K Danzmann, G Davies, D DeBra, V Dergachev, S Desai, R DeSalvo, S Dhurandar, M Díaz, A Di Credico, R W P Drever, R J Dupuis, P Ehrens, T Etzel, M Evans, T Evans, S Fairhurst, L S Finn, K Y Franzen, R E Frey, P Fritschel, V V Frolov, M Fyffe, K S Ganezer, J Garofoli, I Gholami, J A Giaime, K Goda, L Goggin, G González, C Gray, A M Gretarsson, D Grimmett, H Grote, S Grunewald, M Guenther, R Gustafson, W O Hamilton, C Hanna, J Hanson, C Hardham, G Harry, J Heefner, I S Heng, M Hewitson, N Hindman, P Hoang, J Hough, W Hua, M Ito, Y Itoh, A Ivanov, B Johnson, W W Johnson, D I Jones, G Jones, L Jones, V Kalogera, E Katsavounidis, K Kawabe, S Kawamura, W Kells, A Khan, C Kim, P King, S Klimenko, S Koranda, D Kozak, B Krishnan, M Landry, B Lantz, A Lazzarini, M Lei, I Leonor, K Libbrecht, P Lindquist, S Liu, M Lormand, M Lubinski, H Lück, M Luna, B Machenschalk, M MacInnis, M Mageswaran, K Mailand, M Malec, V Mandic, S Marka, E Maros, K Mason, L Matone, N Mavalvala, R McCarthy, D E McClelland, M McHugh, J W C McNabb, A Melissinos, G Mendell, R A Mercer, S Meshkov, E Messaritaki, C Messenger, E Mikhailov, S Mitra, V P Mitrofanov, G Mitselmakher, R Mittleman, O Miyakawa, S Mohanty, G Moreno, K Mossavi, G Mueller, S Mukherjee, E Myers, J Myers, T Nash, F Nocera, J S Noel, B O'Reilly, R O'Shaughnessy, D J Ottaway, H Overmier, B J Owen, Y Pan, M A Papa, V Parameshwaraiah, C Parameswariah, M Pedraza, S Penn, M Pitkin, R Prix, V Quetschke, F Raab, H Radkins, R Rahkola, M Rakhmanov, K Rawlins, S Ray-Majumder, V Re, T Regimbau, D H Reitze, R Riesen, K Riles, B Rivera, D I Robertson, N A Robertson, C Robinson, S Roddy, A Rodriguez, J Rollins, J D Romano, J Romie, S Rowan, A Rüdiger, L Ruet, P Russell, K Ryan, V Sandberg, G H Sanders, V Sannibale, P Sarin, B S Sathyaprakash, P R Saulson, R Savage, A Sazonov, R Schilling, R Schofield, B F Schutz, P Schwinberg, S M Scott, S E Seader, A C Searle, B Sears, D Sellers, A S Sengupta, P Shawhan, D H Shoemaker, A Sibley, X Siemens, D Sigg, A M Sintes, J Smith, M R Smith, O Spjeld, K A Strain, D M Strom, A Stuver, T Summerscales, M Sung, P J Sutton, D B Tanner, R Taylor, K A Thorne, K S Thorne, K V Tokmakov, C Torres, C Torrie, G Traylor, W Tyler, D Ugolini, C Ungarelli, M Vallisneri, M van Putten, S Vass, A Vecchio, J Veitch, C Vorvick, S P Vyachanin, L Wallace, H Ward, R Ward, K Watts, D Webber, U Weiland, A Weinstein, R Weiss, S Wen, K Wette, J T Whelan, S E Whitcomb, B F Whiting, S Wiley, C Wilkinson, P A Willems, B Willke, A Wilson, W Winkler, S Wise, A G Wiseman, G Woan, D Woods, R Wooley, J Worden, I Yakushin, H Yamamoto, S Yoshida, M Zanolin, L Zhang, N Zotov, M Zucker, J Zweizig.   

Abstract

The Laser Interferometer Gravitational-Wave Observatory has performed a third science run with much improved sensitivities of all three interferometers. We present an analysis of approximately 200 hours of data acquired during this run, used to search for a stochastic background of gravitational radiation. We place upper bounds on the energy density stored as gravitational radiation for three different spectral power laws. For the flat spectrum, our limit of omega0 < 8.4 x 10(-4) in the 69-156 Hz band is approximately 10(5) times lower than the previous result in this frequency range.

Year:  2005        PMID: 16384203     DOI: 10.1103/PhysRevLett.95.221101

Source DB:  PubMed          Journal:  Phys Rev Lett        ISSN: 0031-9007            Impact factor:   9.161


  3 in total

1.  Experiments with probe masses.

Authors:  V B Braginsky
Journal:  Proc Natl Acad Sci U S A       Date:  2007-02-12       Impact factor: 11.205

Review 2.  Gravitational Wave Detection by Interferometry (Ground and Space).

Authors:  Matthew Pitkin; Stuart Reid; Sheila Rowan; Jim Hough
Journal:  Living Rev Relativ       Date:  2011-07-11       Impact factor: 40.429

Review 3.  Detection methods for stochastic gravitational-wave backgrounds: a unified treatment.

Authors:  Joseph D Romano; Neil J Cornish
Journal:  Living Rev Relativ       Date:  2017-04-04       Impact factor: 40.429
  3 in total

北京卡尤迪生物科技股份有限公司 © 2022-2023.