A controversial prediction about black holes and the expansion force of the universe could explain a cosmology mystery ...

Black holes are eaters of all things, even radiation. A new study published in Physical Review Letters suggests that black holes might spew dark energy—and that they could help explain an intriguing ...

The universe is full of different types of radiation and particles that can be observed on Earth, including photons in the entire range of the electromagnetic spectrum, neutrinos and cosmic rays. A ...

The most energetic cosmic neutrino, or "ghost particle," ever recorded may be the remnants of a nearby black hole explosion.

“The mass and the antiparticle nature of neutrinos can be studied by measuring the radioactive beta and double-beta decays of atomic nuclei,” Ruotsalainen said. “There are likely some tens of suitable ...

New studies of the “platypus of materials” help explain how their atoms arrange themselves into orderly, but nonrepeating, patterns.

Scientists may have finally uncovered the mystery behind ultra-high-energy cosmic rays — the most powerful particles known in the universe. A team from NTNU suggests that colossal winds from ...

Old rocket parts and decommissioned satellites are whizzing around in low Earth orbit, where they risk colliding with the ever-growing constellations of modern satellites being launched.

When trying to identify the nature of dark matter, sometimes it’s the things it doesn’t do that tell us the most, like turning the center of the Earth liquid. A new study has shown that if some models ...

Deep beneath South Dakota, scientists are closing in on one of the greatest mysteries in the universe — the true nature of dark matter. Using the world’s most sensitive detector, the LUX-ZEPLIN experi ...

Neutrinos are very common fundamental particles included in the Standard Model of particle physics. Measuring their properties allows for creating more accurate models of the birth of the universe, ...