Tests of General Relativity with GW150914

Authors

B. P. Abbott, California Institute of Technology
R. Abbott, Louisiana State University
T. D. Abbott, University of Salerno
M. R. Abernathy, Complesso Universitario di Monte sant'Angelo
F. Acernese, University of Florida
K. Ackley, Universite de Savoie
C. Adams, Max Planck Institute for Gravitational Physics (Albert Einstein Institute)
Marc Favata, Montclair State UniversityFollow
Shaon Ghosh, Montclair State UniversityFollow
Rodica Martin, Montclair State UniversityFollow

Document Type

Article

Publication Date

5-31-2016

Journal / Book Title

Physical review letters

Abstract

The LIGO detection of GW150914 provides an unprecedented opportunity to study the two-body motion of a compact-object binary in the large-velocity, highly nonlinear regime, and to witness the final merger of the binary and the excitation of uniquely relativistic modes of the gravitational field. We carry out several investigations to determine whether GW150914 is consistent with a binary black-hole merger in general relativity. We find that the final remnant's mass and spin, as determined from the low-frequency (inspiral) and high-frequency (postinspiral) phases of the signal, are mutually consistent with the binary black-hole solution in general relativity. Furthermore, the data following the peak of GW150914 are consistent with the least-damped quasinormal mode inferred from the mass and spin of the remnant black hole. By using waveform models that allow for parametrized general-relativity violations during the inspiral and merger phases, we perform quantitative tests on the gravitational-wave phase in the dynamical regime and we determine the first empirical bounds on several high-order post-Newtonian coefficients. We constrain the graviton Compton wavelength, assuming that gravitons are dispersed in vacuum in the same way as particles with mass, obtaining a 90%-confidence lower bound of 1013 km. In conclusion, within our statistical uncertainties, we find no evidence for violations of general relativity in the genuinely strong-field regime of gravity.

DOI

10.1103/PhysRevLett.116.221101

MSU Digital Commons Citation

Abbott, B. P.; Abbott, R.; Abbott, T. D.; Abernathy, M. R.; Acernese, F.; Ackley, K.; Adams, C.; Favata, Marc; Ghosh, Shaon; and Martin, Rodica, "Tests of General Relativity with GW150914" (2016). Department of Physics and Astronomy Faculty Scholarship and Creative Works. 146.
https://digitalcommons.montclair.edu/physics-astron-facpubs/146

Published Citation

Scientific, L. I. G. O., Collaborations, V., Abbott, B. P., Abbott, R., Abbott, T. D., Abernathy, M. R., ... & Cepeda, C. B. (2016). Tests of general relativity with GW150914. Physical review letters, 116(22), 221101.