The team added new limits to how dark matter could interact with the LIGO detector, boosting hopes for future runs.

Yet one thing remains unchanged — dark matter was a mystery then, and it still is today. However, findings from a new study ...

A quantum sensing experiment now has the potential to identify single gravitons — the particles that make up gravity — which ...

Large detectors like LIGO (Laser Interferometer Gravitational-Wave Observatory) have proven the existence of these waves, but ...

A new study published in Physical Review Letters (PRL) proposes using gravitational wave detectors like LIGO to search for ...

Gravity is the only one of the four fundamental forces whose force carrier, the graviton, has never been directly observed.

The instrument is so sensitive that the Hanford device was picking up a raven pecking at the frost on the pipes that ...

In February 2016, scientists at the Laser Interferometer Gravitational-wave Observatory (LIGO) confirmed they made the first-ever detection of gravitational waves (GWs). These events occur when ...

A team led by Stevens physics professor Igor Pikovski has proposed a way to detect single gravitons in a quantum sensing ...

The graviton – a hypothetical particle that carries the force of gravity – has eluded detection for over a century. But now ...

The current generation of gravitational wave detectors could "hear" supernovas over 65 million light-years away, helping ...

For India to become a knowledge economy, we must reimagine knowledge creation. Ramp up government research funding and get ...