A newly observed gravitational wave event from the collision of two massive, rapidly spinning black holes forces scientists to reconsider how these cosmic giants are born and grow.

The Laser Interferometer Gravitational-Wave Observatory, commonly known as LIGO, has been an instrumental player in detecting gravitational waves, furthering our understanding of the cosmos. Located ...

The 2026 budget request states that NSF will operate only one of the two LIGO sites, drastically reducing its cosmic listening ability. Reading time 3 minutes Nearly 10 years ago, scientists observed ...

A new preprint study posted toarXiv by a team at Applied Physics in New York suggests that LIGO – the Laser Interferometer Gravitational-Wave Observatory – might be able to detect something far more ...

On Sept. 14, 2015, physicists attained the long-sought goal of detecting gravitational waves, the shockwaves spewed out by such cataclysmic events as the violent merger of two black holes. Now, in the ...

Gravitational-wave detectors have captured their biggest spectacle yet: two gargantuan, rapidly spinning black holes likely forged by earlier smash-ups fused into a 225-solar-mass titan, GW231123. The ...

Ten years after the historic discovery of gravitational waves, and having spotted hundreds more of these space-time swells since then, physicists say they are only just getting started. On 14 ...

It took less than a second for the space observatory hidden in Louisiana woods to detect the most massive black hole ever observed. Only one tenth of a second to be exact. That's how long it took for ...

Ten years ago, astronomers made an epic discovery with the Laser Interferometer Gravitational-Wave Observatory. Cosmology hasn’t been the same since, and it might not stay that way much longer. Out ...