LIGO's 2015 detection confirmed Einstein's theory and sparked a decade of data. Upgraded LIGOs now detect black hole mergers every three days with precision. New 2025 findings confirmed Hawking’s ...

Out on a remote tract of land in Hingoli district of Maharashtra, well away from busy towns and cities, work is on to set up one of the most sensitive detectors on the planet.India’s Laser ...

On September 14, 2015, a signal arrived on Earth, carrying information about a pair of remote black holes that had spiraled together and merged. The signal had traveled about 1.3 billion years to ...

A signal lasting less than a second traveled about 1.3 billion light years before it reached an observatory deep in the piney woods of Livingston 10 years ago. The brief signal — caused by a pair of ...

Ten years after LIGO’s historical detection of gravitational waves, the project is cracking black hole mysteries at an astounding pace. Reading time 4 minutes LIGO’s discovery of gravitational ...

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 ...

The Laser Interferometer Gravitational-Wave Observatory, or LIGO, has already won its researchers a Nobel Prize — and now artificial intelligence is poised to take LIGO’s search for cosmic collisions ...

The Laser Interferometer Gravitational Wave Observatory (LIGO) has seen over 300 black hole mergers in its short time in operation, and now it’s seen an event so large—and so rare—that it challenges ...

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 ...

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 ...