For the first time, two dark matter experiments have detected a neutrino fog, a dense cloud of neutrinos. This discovery is ...

Fancy telescopes and massive particle accelerators aren’t the only tools that can be used to detect dark matter. Researchers ...

These “miniature trails of destruction,” as the researchers call them, are caused by high-energy particles bouncing off the ...

For all our fancy telescopes and particle accelerators, we still haven’t managed to detect even a smidgen of dark matter. In ...

Primordial black holes may be exploding throughout the universe. If we can catch them in the act, it could pave the way to ...

Dark matter makes up 85% of the stuff in the cosmos, but scientists have no idea what it is. On Dark Matter Day (Oct. 31), ...

"In particular, if dark matter is a particle, it is expected that it will rarely annihilate and produce equal amounts of particles and anti-particles." Related: Did dark matter help black holes ...

Fine tuning an experimental setup improved a detector's sensitivity to neutrinos and perhaps eventually dark matter—two ...

A Virginia Tech-led team is hunting for dark matter — not with telescopes or particle colliders — but by scrutinizing billion ...

Scientists in Virginia are looking for mysterious dark matter ... high-energy particle inside a rock bounces off of the charged core of an atom – the basic building block of matter – inside ...

Two dark matter experiments have spotted signs of ... Instead, they act like waves,” Conover says. If a particle’s wavelength is longer than an atom’s nucleus, it will interact with the ...