Searching for gravitational waves from binary inspirals with LIGOBROWN, Duncan A; BABAK, Stanislav; SHAWHAN, Peter et al.Classical and quantum gravity (Print). 2004, Vol 21, Num 20, pp S1625-S1633, issn 0264-9381Conference Paper

Status of coalescing binaries search activities in VirgoACERNESE, F; AMICO, P; BARSOTTI, L et al.Classical and quantum gravity (Print). 2007, Vol 24, Num 23, pp 5767-5775, issn 0264-9381, 9 p.Article

Improving the timing precision for inspiral signals found by interferometric gravitational wave detectorsACERNESE, F; AMICO, P; BARSOTTI, L et al.Classical and quantum gravity (Print). 2007, Vol 24, Num 19, issn 0264-9381, S617-S625Conference Paper

The virgo statusACERNESE, F; AMICO, P; BARSUGLIA, M et al.Classical and quantum gravity (Print). 2006, Vol 23, Num 19, issn 0264-9381, S635-S642Conference Paper

Modeling gravitational recoil from black-hole binaries using numerical relativityZLOCHOWER, Yosef; CAMPANELLI, Manuela; LOUSTO, Carlos O et al.Classical and quantum gravity (Print). 2011, Vol 28, Num 11, issn 0264-9381, 114015.1-114015.11Conference Paper

How many templates for GW chirp detection? The minimal-match issue revisitedCROCE, R. P; DEMMA, Th; LONGO, M et al.Classical and quantum gravity (Print). 2004, Vol 21, Num 21, pp 4955-4961, issn 0264-9381, 7 p.Article

Search for black hole ringdown signals in LIGO S4 dataGOGGIN, Lisa M.Classical and quantum gravity (Print). 2006, Vol 23, Num 19, issn 0264-9381, S709-S713Conference Paper

Network analysis for coalescing binaries: coherent versus coincidence based strategiesVICERE, A.Classical and quantum gravity (Print). 2004, Vol 21, Num 20, pp S1793-S1800, issn 0264-9381Conference Paper

A tapering window for time-domain templates and simulated signals in the detection of gravitational waves from coalescing compact binariesMCKECHAN, D. J. A; ROBINSON, C; SATHYAPRAKASH, B. S et al.Classical and quantum gravity (Print). 2010, Vol 27, Num 8, issn 0264-9381, 084020.1-084020.11Conference Paper

A hierarchical search for gravitational waves from supermassive black hole binary mergersHARRY, I. W; FAIRHURST, S; SATHYAPRAKASH, B. S et al.Classical and quantum gravity (Print). 2008, Vol 25, Num 18, issn 0264-9381, 184027.1-184027.1Conference Paper

Dynamic matched filters for gravitational wave detectionACERNESE, F; BARONE, F; DE ROSA, R et al.Classical and quantum gravity (Print). 2004, Vol 21, Num 20, pp S1849-S1854, issn 0264-9381Conference Paper

Searching for gravitational-wave signals emitted by eccentric compact binaries using a non-eccentric template bank : implications for ground-based detectorsCOKELAER, T; PATHAK, D.Classical and quantum gravity (Print). 2009, Vol 26, Num 4, issn 0264-9381, 045013.1-045013.18Article

Gravitational radiation from inspiralling compact binaries completed at the third post-Newtonian orderBLANCHET, Luc; DAMOUR, Thibault; ESPOSITO-FARESE, Gilles et al.Physical review letters. 2004, Vol 93, Num 9, pp 091101.1-091101.4, issn 0031-9007Article

IIR adaptive line enhancer filters for detection of gravitational waves from coalescing binariesACERNESE, F; BARONE, F; DE ROSA, R et al.Classical and quantum gravity (Print). 2004, Vol 21, Num 5, pp S781-S785, issn 0264-9381Conference Paper

The gravitational-wave recoil from the ringdown phase of coalescing black hole binariesLE TIEC, Alexandre; BLANCHET, Luc; WILL, Clifford M et al.Classical and quantum gravity (Print). 2010, Vol 27, Num 1, issn 0264-9381, 012001.1-012001.7Article

GPU-accelerated low-latency real-time searches for gravitational waves from compact binary coalescenceYUAN LIU; ZHIHUI DU; SHIN KEE CHUNG et al.Classical and quantum gravity (Print). 2012, Vol 29, Num 23, issn 0264-9381, 235018.1-235018.13Article

A Metropolis-Hastings routine for estimating parameters from compact binary inspiral events with laser interferometric gravitational radiation dataCHRISTENSEN, Nelson; MEYER, Renate; LIBSON, Adam et al.Classical and quantum gravity (Print). 2004, Vol 21, Num 1, pp 317-330, issn 0264-9381, 14 p.Article

Constraints from gravitational recoil on the growth of supermassive black holes at high redshiftHAIMAN, Zoltan.The Astrophysical journal. 2004, Vol 613, Num 1, pp 36-40, issn 0004-637X, 5 p., 1Article

Gravitational waves from extragalactic inspiraling binaries: Selection effects and expected detection ratesNUTZMAN, Philip; KALOGERA, Vicky; FINN, Lee Samuel et al.The Astrophysical journal. 2004, Vol 612, Num 1, pp 364-374, issn 0004-637X, 11 p., 1Article

Gravitational waves and γ-ray burstsKOCHANEK, C. S; PIRAN, T.The Astrophysical journal. 1993, Vol 417, Num 1, pp L17-L20, issn 0004-637X, 2Article

A blind hierarchical coherent search for gravitational-wave signals from coalescing compact binaries in a network of interferometric detectorsBOSE, Sukanta; DAYANGA, Thilina; GHOSH, Shaon et al.Classical and quantum gravity (Print). 2011, Vol 28, Num 13, issn 0264-9381, 134009.1-134009.16Conference Paper

Interpreting the results of searches for gravitational waves from coalescing binariesBRADY, Patrick R; FAIRHURST, Stephen.Classical and quantum gravity (Print). 2008, Vol 25, Num 10, issn 0264-9381, 105002.1-105002.26Article

Assigning confidence to inspiral gravitational wave candidates with Bayesian model selectionVEITCH, John; VECCHIO, Alberto.Classical and quantum gravity (Print). 2008, Vol 25, Num 18, issn 0264-9381, 184010.1-184010.10Conference Paper

Superradiance in a torus magnetosphere around a black holeVAN PUTTEN, M. H. P. M.Science (Washington, D.C.). 1999, Vol 284, Num 5411, pp 115-118, issn 0036-8075Article

Generic bounds on dipolar gravitational radiation from inspiralling compact binariesARUN, K. G.Classical and quantum gravity (Print). 2012, Vol 29, Num 7, issn 0264-9381, 075011.1-075011.8Article