(Nanowerk News) In 2015, the Laser Interferometer Gravitational-Wave Observatory, or LIGO, made history when it made the first direct detection of gravitational waves, or ripples in space and time, ...

The National Science Foundation’s LIGO (Laser Interferometer Gravitational-Wave Observatory) is set to resume its hunt for gravitational waves — ripples in space and time — on April 1, after receiving ...

This artwork imagines the ultimate front-row seat for GW250114, a powerful collision between two black holes observed in gravitational waves by the US National Science Foundation LIGO. It depicts the ...

Deborah Ferguson (UT Austin), Bhavesh Khamesra (Georgia Tech), and Karan Jani (Vanderbilt University). After a three-year hiatus, scientists in the U.S. have just turned on detectors capable of ...

Add Yahoo as a preferred source to see more of our stories on Google. Installation of in-vacuum equipment as a part of the squeezed-light upgrade before Advanced LIGO’s third observing run. LIGO team ...

After a whirlwind tour of press conferences, parties and awards following their Feb. 11 announcement of the world’s first direct detection of gravitational waves, the team of scientists at the Laser ...

“It is very significant that these black holes were much less massive than those observed in the first detection,” said Gabriela Gonzalez, spokeswoman for the LIGO Scientific Collaboration and a ...

Gravitational-wave astronomy is growing up. These ripples in the fabric of space-time are created by accelerating masses, which then travel outward from their origin at the speed of light. While ...

A look at the technology that creates squeezed light in LIGO's vacuum chamber. The picture was taken from one of the chamber's viewports at a time when the squeezer was operational and pumped with ...

LIGO researchers at MIT, Caltech, and elsewhere report a significant advance in quantum squeezing, which allows them to measure undulations in space-time across the entire range of gravitational ...