Gravitational waves from merging compact binaries: How accurately can one extract the binary’s parameters from the inspiral waveform? C Cutler, EE Flanagan Physical Review D 49 (6), 2658, 1994 | 1729 | 1994 |
Constraining neutron-star tidal Love numbers with gravitational-wave detectors EE Flanagan, T Hinderer Physical Review D—Particles, Fields, Gravitation, and Cosmology 77 (2), 021502, 2008 | 1124 | 2008 |
Measuring gravitational waves from binary black hole coalescences. I. Signal to noise for inspiral, merger, and ringdown ÉÉ Flanagan, SA Hughes Physical Review D 57 (8), 4535, 1998 | 852 | 1998 |
The last three minutes: Issues in gravitational-wave measurements of coalescing compact binaries C Cutler, TA Apostolatos, L Bildsten, LS Finn, EE Flanagan, D Kennefick, ... Physical Review Letters 70 (20), 2984, 1993 | 682 | 1993 |
The basics of gravitational wave theory EE Flanagan, SA Hughes New Journal of Physics 7 (1), 204, 2005 | 450 | 2005 |
Detector description and performance for the first coincidence observations between LIGO and GEO B Abbott, R Abbott, R Adhikari, A Ageev, B Allen, R Amin, SB Anderson, ... Nuclear Instruments and Methods in Physics Research Section A: Accelerators …, 2004 | 432 | 2004 |
The conformal frame freedom in theories of gravitation EE Flanagan Classical and Quantum Gravity 21 (15), 3817, 2004 | 411 | 2004 |
Sensitivity of the Laser Interferometer Gravitational Wave Observatory to a stochastic background, and its dependence on the detector orientations EE Flanagan Physical Review D 48 (6), 2389, 1993 | 368 | 1993 |
Excess power statistic for detection of burst sources of gravitational radiation WG Anderson, PR Brady, JDE Creighton, EE Flanagan Physical Review D 63 (4), 042003, 2001 | 352 | 2001 |
Does back reaction enforce the averaged null energy condition in semiclassical gravity? EE Flanagan, RM Wald Physical Review D 54 (10), 6233, 1996 | 345 | 1996 |
Palatini Form of Gravity EE Flanagan Physical review letters 92 (7), 071101, 2004 | 340 | 2004 |
Dark energy or modified gravity? An effective field theory approach J Bloomfield, ÉÉ Flanagan, M Park, S Watson Journal of Cosmology and Astroparticle Physics 2013 (08), 010, 2013 | 336 | 2013 |
Analysis of LIGO data for gravitational waves from binary neutron stars B Abbott, R Abbott, R Adhikari, A Ageev, B Allen, R Amin, SB Anderson, ... Physical Review D 69 (12), 122001, 2004 | 331 | 2004 |
Post-1-Newtonian tidal effects in the gravitational waveform from binary inspirals J Vines, EE Flanagan, T Hinderer Physical Review D—Particles, Fields, Gravitation, and Cosmology 83 (8), 084051, 2011 | 323 | 2011 |
Measuring gravitational waves from binary black hole coalescences. II. The waves’ information and its extraction, with and without templates EE Flanagan, SA Hughes Physical Review D 57 (8), 4566, 1998 | 321 | 1998 |
Two-timescale analysis of extreme mass ratio inspirals in Kerr spacetime: Orbital motion T Hinderer, EE Flanagan Physical Review D—Particles, Fields, Gravitation, and Cosmology 78 (6), 064028, 2008 | 309 | 2008 |
Cosmological expansion in the Randall-Sundrum brane world scenario EE Flanagan, SHH Tye, I Wasserman Physical Review D 62 (4), 044039, 2000 | 305 | 2000 |
Proof of classical versions of the Bousso entropy bound and of the generalized second law EE Flanagan, D Marolf, RM Wald Physical Review D 62 (8), 084035, 2000 | 296 | 2000 |
Constraining interactions in cosmology’s dark sector R Bean, EE Flanagan, I Laszlo, M Trodden Physical Review D—Particles, Fields, Gravitation, and Cosmology 78 (12), 123514, 2008 | 249 | 2008 |
Saturation of the r-mode instability P Arras, EE Flanagan, SM Morsink, AK Schenk, SA Teukolsky, ... The Astrophysical Journal 591 (2), 1129, 2003 | 249 | 2003 |