Rank |
*R*(*p*) |
Citations |
Date |
Title |
Authors |

1 |
4.71 |
155 |
1998/04/15 |
Measuring gravitational waves from binary black hole coalescences. I. Signal to noise for inspiral, merger, and ringdown |
É. É. Flanagan, S. A. Hughes |

2 |
3.40 |
63 |
2004/02/17 |
Palatini Form of $1/R$ Gravity |
É. É. Flanagan |

3 |
3.05 |
29 |
2006/07/06 |
Mimicking dark energy with Lemaître-Tolman-Bondi models: Weak central singularities and critical points |
R. A. Vanderveld, É. É. Flanagan, I. Wasserman |

4 |
2.80 |
88 |
2008/01/22 |
Constraining neutron-star tidal Love numbers with gravitational-wave detectors |
É. É. Flanagan, T. Hinderer |

5 |
2.71 |
94 |
2000/07/25 |
Cosmological expansion in the Randall-Sundrum brane world scenario |
É. É. Flanagan, S. H. Tye, I. Wasserman |

6 |
1.80 |
24 |
2005/05/27 |
Can superhorizon perturbations drive the acceleration of the Universe? |
É. É. Flanagan |

7 |
1.74 |
66 |
2001/01/29 |
Excess power statistic for detection of burst sources of gravitational radiation |
W. G. Anderson, P. R. Brady, J. D. Creighton, É. É. Flanagan |

8 |
1.62 |
2 |
2015/10/26 |
Observer dependence of angular momentum in general relativity and its relationship to the gravitational-wave memory effect |
É. É. Flanagan, D. A. Nichols |

9 |
1.52 |
57 |
1998/04/15 |
Measuring gravitational waves from binary black hole coalescences. II. The waves’ information and its extraction, with and without templates |
É. É. Flanagan, S. A. Hughes |

10 |
1.17 |
37 |
2000/09/27 |
Proof of classical versions of the Bousso entropy bound and of the generalized second law |
É. É. Flanagan, D. Marol, R. M. Wald |

11 |
1.06 |
42 |
2011/04/28 |
Post-1-Newtonian tidal effects in the gravitational waveform from binary inspirals |
J. Vines, É. É. Flanagan, T. Hinderer |

12 |
0.89 |
20 |
2012/08/15 |
Transient Resonances in the Inspirals of Point Particles into Black Holes |
É. É. Flanagan, T. Hinderer |

13 |
0.74 |
41 |
2008/12/08 |
Constraining interactions in cosmology’s dark sector |
R. Bean, É. É. Flanagan, I. Laszlo, M. Trodden |

14 |
0.59 |
19 |
2008/10/08 |
Luminosity distance in “Swiss cheese” cosmology with randomized voids. I. Single void size |
R. A. Vanderveld, É. É. Flanagan, I. Wasserman |

15 |
0.58 |
32 |
2005/06/07 |
Gravitational Radiation Reaction and Inspiral Waveforms in the Adiabatic Limit |
S. A. Hughes, S. Drasco, É. É. Flanagan, J. Franklin |

16 |
0.50 |
40 |
1997/10/15 |
Quantum inequalities in two-dimensional Minkowski spacetime |
É. É. Flanagan |

17 |
0.49 |
57 |
2008/09/11 |
Two-timescale analysis of extreme mass ratio inspirals in Kerr spacetime: Orbital motion |
T. Hinderer, É. É. Flanagan |

18 |
0.44 |
31 |
2000/06/21 |
Cosmology of the brane world |
É. É. Flanagan, S. H. Tye, I. Wasserman |

19 |
0.35 |
24 |
2001/11/29 |
Nonlinear mode coupling in rotating stars and the *r*-mode instability in neutron stars |
A. K. Schenk, P. Arras, É. É. Flanagan, S. A. Teukolsky, I. Wasserman |

20 |
0.33 |
19 |
2013/07/26 |
First-post-Newtonian quadrupole tidal interactions in binary systems |
J. E. Vines, É. É. Flanagan |