Author(s)

Alexandre Chaloum Elbeze

University Pierre et Marie Curie, Paris, France.

On September 14, 2015 09:50:45 UTC, the two laser interferometers of the LIGO program simultaneously observed a first gravitational wave signal called GW150914. With the commissioning of the VIRGO interferometer in 2017, two other detections, GW170814 and GW170817, were observed and their positions given accurately by LIGO and VIRGO. In this article, I argue that the photons circulating in the cavities of the three interferometers of LIGO and VIRGO were sensitive to the field of attraction of the planets of our Solar System and more particularly to that of the Sun, and would not be due to a coalescence of black hole or neutron stars. The shape of the signals obtained by my interaction model (called GEAR) between the photons in the interferometer cavity and the gravitational field of the Sun is very similar to that of a compact binary coalescence, identical to those obtained by general relativity. Solving the equations of GEAR also gives the exact positions and pseudo-date of the coalescences of all the LIGO and VIRGO detections detected so far, and probably those that will come at the end of 2018 and beyond.

Gravitational Energy Absorber Reactor, GEAR, Interferometer LIGO, Interferometer VIRGO, Law of Gravitation, Gravitational Waves, Expanding Universe Localization of Black-Hole, GEAR Model, Gravitational Waves

Elbeze, A. (2018) On Gravitational Waves: Did We Simply Detect the Gravitational Effect of the Sun on the Photons Moving in the Cavity of Interferometers LIGO and VIRGO?. Journal of Modern Physics, 9, 1281-1290. doi: 10.4236/jmp.2018.96076.