A new study shows that when combined with lasers, atomic clocks can help us catch the most mysterious matter in the universe.

A team of international researchers has developed an innovative approach to uncover the secrets of dark matter in the ...

The search for dark matter is a major focus in modern physics, particularly through experimental detection methods. Recent research has made significant strides in understanding and detecting dark ...

While dark matter is buttressed by numerous consistent and independent pieces of evidence from astronomy, astrophysics, and cosmology, unambiguous and conclusive direct detection of it continues ...

The majority of our evidence for dark matter’s existence comes from observing visible (or baryonic) matter that does not ...

W hat will it take to detect dark matter—the invisible, nigh-intangible substance that might make up five-sixths of all matter in the universe? Dark matter should be all around ...

Led by EQUS Research Fellow Dr. Chris Baker (UQ), study proposes direct detection of low-mass dark matter via its interactions with superfluid helium confined in an optomechanical cavity.

Dark matter is likely made up of particles and ... have internal magnetic fields that "are perfectly suited for axion detection." "These crystal structures are expected to become a practical ...

These two properties of axions mean that they are exceptionally good at collapsing down to incredibly high densities, pulled ...

In a surprising turn of events, scientists have announced the detection of a significant ... Massive Particles), could point toward dark matter interactions. If this breakthrough holds, it may ...

Dark matter remains one of the universe's most mysterious components, accounting for approximately 27% of its mass and energy. Despite its pervasive influence ...

Scientists from the University of Southampton have launched an ambitious experiment aimed at detecting dark matter, a mysterious force that makes ...