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

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

Scientists propose a new approach to detect scalar field dark matter using LIGO, the gravitational wave observatory.

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

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

A recent breakthrough led by Igor Pikovski, a physics professor at Stevens Institute of Technology, may soon allow scientists ...

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 ...

Nearly imperceptible quantum flickers used to limit how precisely we could detect the way space-time ripples, but squeezing ...

The researchers, who were looking for a specific ultra-low-mass form of dark matter, reached a factor 10,000 improvement over previous world-leading results using Laser Interferometer ...

The leading idea is that gravity arises from the exchange of hypothetical "graviton" particles, much like electromagnetism ...

Groundbreaking discoveries predicted in gravitational waves could reveal extraterrestrial warp drives traveling through the ...

A theory known as non-singular matter bouncing cosmology suggests that the universe “bounces” between a hot big bang era and ...