The identity of dark matter remains a mystery, as experiments designed to detect a stray, rare collision have failed to turn up anything ... That's in the range of the heaviest known particles, like ...

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

A new theory for dark matter has the power to explain several experimental results simultaneously, even those seemingly at odds with each other. Although the origin of these particles remains ...

Researchers hypothesize a fifth force of nature that could explain the intricate relationship between dark matter and dark ...

Studies have used observations of UFDs to constrain the mass of ultralight dark matter particles. For instance, researchers have derived a lower limit on the mass of fuzzy dark matter particles ...

Gravitational effects of dark matter are evident in shaping galaxies and stars. Although the experiment is yet to record any hits from dark matter particles, the LUX-ZEPLIN (LZ) experiment has been ...

Dark matter, predicted to account for most of the universe's mass, remains highly elusive. Physicists have been searching for various particles that could be promising dark matter candidates ...

These particles could potentially hold the key to solving one of the most elusive mysteries in modern physics: dark matter. This strange and invisible substance is thought to make up around 85% of ...

One of these candidates is so-called light dark matter (LDM), particles with low masses below a few giga-electron volts (GeV/c 2). Theories suggest that these particles could weakly interact with ...

Dark matter particles outnumber ordinary, everyday matter, which comprises objects like stars, planets, moons, asteroids, cosmic clouds of gas and dust, and all living things, by about five to one.

One possible answer to this problem is that the dark matter particles are incredibly light — billions of times less massive than the neutrino, the lightest particle currently known. Dubbed ...

Dark matter particles outnumber ordinary, everyday matter, which comprises objects like stars, planets, moons, asteroids, cosmic clouds of gas and dust, and all living things, by about five to one.