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

81 |
1.20 |
1 |
2016/07/01 |
Massive gravitons as dark matter and gravitational waves |
K. Aoki, S. Mukohyama |

82 |
1.19 |
19 |
2013/02/14 |
Detecting High-Frequency Gravitational Waves with Optically Levitated Sensors |
A. Arvanitaki, A. A. Geraci |

83 |
1.19 |
37 |
2007/11/16 |
Prospects for Detection of Gravitational Waves from Intermediate-Mass-Ratio Inspirals |
D. A. Brown, J. Brink, H. Fang, J. R. Gair, C. Li, G. Lovelace, I. Mandel, K. S. Thorne |

84 |
1.18 |
35 |
2009/02/23 |
Gravitational waves from black hole-neutron star binaries: Classification of waveforms |
M. Shibata, K. Kyutoku, T. Yamamoto, K. Taniguchi |

85 |
1.18 |
31 |
2010/03/05 |
Constraining alternative theories of gravity by gravitational waves from precessing eccentric compact binaries with LISA |
K. Yagi, T. Tanaka |

86 |
1.17 |
86 |
2003/05/30 |
Detecting gravitational waves from precessing binaries of spinning compact objects: Adiabatic limit |
A. Buonanno, Y. Chen, M. Vallisneri |

87 |
1.14 |
17 |
2012/05/22 |
Lensing of 21-cm Fluctuations by Primordial Gravitational Waves |
L. Book, M. Kamionkowski, F. Schmidt |

88 |
1.11 |
3 |
2015/12/29 |
Coherent network analysis of gravitational waves from three-dimensional core-collapse supernova models |
K. Hayama, T. Kuroda, K. Kotake, T. Takiwaki |

89 |
1.09 |
57 |
1997/08/15 |
Accuracy of estimating the multipole moments of a massive body from the gravitational waves of a binary inspiral |
F. D. Ryan |

90 |
1.08 |
28 |
2004/06/30 |
Analysis of first LIGO science data for stochastic gravitational waves |
B. Abbott, R. Abbott, R. Adhikari, A. Ageev, B. Allen, R. Amin, S. B. Anderson, W. G. Anderson, M. Araya, ..., LIGO Scientific Collaboration |

91 |
1.07 |
57 |
1999/05/18 |
Gravitational waves from inspiraling compact binaries: Validity of the stationary-phase approximation to the Fourier transform |
S. Droz, D. J. Knapp, E. Poisson, B. J. Owen |

92 |
1.04 |
25 |
2012/01/27 |
Particle production during inflation and gravitational waves detectable by ground-based interferometers |
J. L. Cook, L. Sorbo |

93 |
1.03 |
34 |
2005/06/14 |
Erratum: Gravitational waves from inspiraling compact binaries: Energy flux to third post-Newtonian order [Phys. Rev. D 65, 064005 (2002)] |
L. Blanchet, B. R. Iyer, B. Joguet |

94 |
1.03 |
23 |
2012/05/21 |
Gravitational waves from quasicircular extreme mass-ratio inspirals as probes of scalar-tensor theories |
N. Yunes, P. Pani, V. Cardoso |

95 |
1.02 |
6 |
2015/12/22 |
Numerical simulations of acoustically generated gravitational waves at a first order phase transition |
M. Hindmarsh, S. J. Huber, K. Rummukainen, D. J. Weir |

96 |
1.02 |
33 |
2007/01/12 |
Search for continuous gravitational waves: Metric of the multidetector $\mathcal{F}$-statistic |
R. Prix |

97 |
1.00 |
58 |
1971/09/20 |
Gravitational Waves in Closed Universes |
R. H. Gowdy |

98 |
0.97 |
23 |
2009/10/27 |
Exploiting Large-Scale Correlations to Detect Continuous Gravitational Waves |
H. J. Pletsch, B. Allen |

99 |
0.97 |
9 |
2014/08/01 |
Measuring the angular momentum distribution in core-collapse supernova progenitors with gravitational waves |
E. Abdikamalov, S. Gossan, A. M. DeMaio, C. D. Ott |

100 |
0.97 |
51 |
2004/05/19 |
Physical template family for gravitational waves from precessing binaries of spinning compact objects: Application to single-spin binaries |
Y. Pan, A. Buonanno, Y. Chen, M. Vallisneri |