The Tetrahedron Constellation Gravitational Wave Observatory would consist of four satellites positioned in space ...

TEGO revolutionizes gravitational wave detection with its tetrahedral spacecraft formation, improving sensitivity and ...

Finding patterns and reducing noise in large, complex datasets generated by the gravitational wave-detecting LIGO facility ...

captured via instruments at the Laser Interferometer Gravitational-wave Observatory. This is going to change the way we look at physics forever, as soon we’ll be able to draw a line from ...

Neutron stars, the dense remains of massive stars that have exploded in supernovae, are some of the most fascinating objects ...

In September 2015 the Laser Interferometer Gravitational-Wave Observatory — the most precise distance-measuring instrument ever built, Rodriguez says — detected gravitational waves for the very first ...

The size and spin of black holes can reveal important information about how and where they formed, according to new research. The study, led by scientists at Cardiff University, tests the idea ...

On September 14, 2015, for the first time ever, the Laser-Interferometer Gravitational-Wave Observatory (LIGO) detected a ripple in spacetime. This breakthrough moment—one Albert Einstein once ...