On Dec. 26, 2015, the two identical instruments that make up the Laser Interferometer Gravitational-Wave Observatory (LIGO) -- located in Washington and Louisiana -- recorded the signal from the ...

LIGO has two widely-separated 4-km-long interferometers—in Hanford, Washington ... Anamaria Effler of the LIGO Livingston Observatory; and Barry Barish, a UCR distinguished professor in physics ...

Machine learning tool will help answer fundamental questions about the universe. A new AI-driven tool allows scientists to ...

An curved arrow pointing right. The Laser Interferometer Gravitational-Wave Observatory (LIGO) is made up of two complexes in the United States. Separated by thousands of miles, each one is 5 ...

A team of physicists, led by Jonathan Richardson from the University of California, Riverside, has made a breakthrough in ...

LIGO has two widely-separated 4-km-long interferometers -- in Hanford, Washington ... Anamaria Effler of the LIGO Livingston Observatory; and Barry Barish, a UCR distinguished professor in ...

An curved arrow pointing right. Scientists from the international Laser Interferometer Gravitational-wave Observatory (LIGO) collaboration just announced that they've recorded gravitational waves ...

An observatory in Japan is joining three ... In the late 1990s, LIGO's machines in Washington and Louisiana were built as an attempt to pick up the signals Einstein thought we'd never detect.

One of these interferometers is in inland Washington State ... U.S. concept for a next-generation gravitational-wave observatory, after LIGO. It will be 10 times the size of LIGO, so that's ...

The planned 40-km Cosmic Explorer observatory will build on this technology, allowing scientists to detect gravitational waves from the universe’s earliest moments. Gravitational-wave detection ...