After a three-year hiatus, scientists in the U.S. have just turned on detectors capable of measuring gravitational waves — tiny ripples in space itself that travel through the universe. Unlike light ...

Two merging black holes, each roughly 30 times the mass of the sun, in a computer simulation. Gravitational wave observatories, such as the Laser Interferometer Gravitational-Wave Observatory (LIGO), ...

Scientists at Rochester Institute of Technology anticipate ushering in the era of gravitational wave astronomy within the decade as part of the Laser Interferometer Gravitational-wave Observatory, or ...

Humanity's first space-based gravitational wave detector has received the go-ahead. The Laser Interferometer Space Antenna (LISA) mission, which consists of three spacecraft that together form a ...

After a three-year hiatus, scientists in the U.S. have just turned on detectors capable of measuring gravitational waves—tiny ripples in space itself that travel through the universe. Unlike light ...

After a three-year hiatus, scientists in the US have just turned on detectors capable of measuring gravitational waves—tiny ripples in space itself that travel through the universe. Unlike light waves ...

New research has shown that future gravitational wave detections from space will be capable of finding new fundamental fields and potentially shed new light on unexplained aspects of the Universe.

EVANSTON, Ill. (CBS) -- A Northwestern University astrophysicist is part of an international team of scientists creating a gravitational wave detector system that will eventually be launched into ...

Detecting gravity waves isn’t easy. But what if you had a really big detector for a long time? That’s what researchers did when they crunched 15 years’ worth of data from the NANOGrav data set. The ...

Two intriguing signals spotted in a small gravitational-wave detector could represent all kinds of exotic phenomena — from new physics to dark matter interacting with black holes to vibrations from ...