GW170814


GW170814 was a gravitational wave signal from two merging black holes, detected by the LIGO and Virgo observatories on 14 August 2017. On 27 September 2017, the LIGO and Virgo collaborations announced the observation of the signal, the fourth confirmed event after GW150914, GW151226 and GW170104. It was the first binary black hole merger detected by LIGO and Virgo together.

Event detection

The signal was detected at 10:30:43 UTC. The Livingston detector was the first to receive the signal, followed by the Hanford detector 8 milliseconds later and Virgo received the signal 14 milliseconds after Livingston. The detection in all three detectors lead to a very accurate estimate of the position of the source, with a 90% credible region of just 60 deg2, a factor 20 more accurate than before.

Astrophysical origin

Analysis indicated the signal resulted from the inspiral and merger of a pair of black holes with and times the mass of the Sun, at a distance of from Earth. The resulting black hole had a mass of solar masses, solar masses having been radiated away as gravitational energy. The peak luminosity of GW170814 was.

Implications for general relativity

predicts that gravitational waves have a tensor-like polarization. The detection in all three detectors led to strong experimental evidence for pure tensor polarization over pure scalar or pure vector polarizations.