A study published in Nature has established a new benchmark in modeling the universe's most extreme events: the collisions of ...

A team of researchers from TU Dortmund University, the University of Paderborn, and the University of Nottingham has ...

Relic Gravitons, by Massimo Giovannini of INFN Milan Bicocca, offers a timely and authoritative guide to one of the most ...

Gravitational waves, those minuscule ripples in spacetime, have revolutionized our understanding of the Universe since their ...

International team calculates observable quantities such as scattering angle and emitted energy with unrivalled precision.

One AI-designed detector increases sensitivity to gravitational waves from supernovas by a factor of 1.6 compared to LIGO's upcoming Voyager upgrade — potentially quadrupling the number of ...

Jackie explains that a laser inside the tubes is split, bounces off mirrors, and goes straight back to sensors at the center of the ‘L’. When gravitational waves pass through these 2.5-mile-long ...

A landmark study published in Nature has established a new benchmark in modelling the universe's most extreme events: the collisions of black holes ...

led some delightful scientists to "chirp" for LIGO on video ahead of the first announcement in 2016. While this detection may not be quite as exciting as the first time gravitational waves were ...

One AI-designed detector increases sensitivity to gravitational waves from supernovas by a factor of 1.6 compared to LIGO's upcoming Voyager upgrade — potentially quadrupling the number of detectable ...

The ripples are occurring at such a low frequency that we can't sense them, but LIGO's sensitive instrumentation can. The first detection of gravitational waves came on September 14, 2015 ...