Detecting dark matter, the elusive type of matter predicted to account for most of the universe's mass, has so far proved to ...

Scientists are working on an ambitious dark matter experiment in space in the hope it can unravel one of the universe's ...

Scientists have taken a bold step toward understanding dark matter, the invisible force shaping the cosmos. Using atomic clocks and ultra-stable lasers, they tracked subtle changes in time to detect ...

Because we haven't found anything yet, we've started to wonder if dark matter might be lighter or heavier than we thought.

A team of international researchers has developed an innovative approach to uncover the secrets of dark matter in the cosmos. They are searching for dark matter using atomic clocks and ...

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

However, due to a lack of experimental evidence for WIMPs, researchers are seeking other alternatives to find dark matter. The NEON experiment is an innovative experiment designed to explore dark ...

An innovative approach in the search for dark matter using space/time-separated atomic clocks and lasers has yielded ...

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

This is why they’re also called ghost particles. However, for the first time, two dark matter experiments have detected a neutrino fog, a dense cloud of neutrinos. This discovery is reported by ...

Join six leading experts to find out everything we know about the subatomic universe. Take a deep dive into the building ...