A high-energy neutrino may have come from a black hole explosion, hinting at Hawking radiation and dark matter clues.

Crews at the Sanford Lab installed a 60-foot skip cage, with an 18-ton hoist over the Ross Shaft this week.  The cage was ...

Scientists may have finally uncovered the mystery behind ultra-high-energy cosmic rays — the most powerful particles known in ...

Could black holes help explain the origins of high-energy cosmic radiation? The universe is filled with many forms of ...

The universe is full of different types of radiation and particles that can be observed on Earth, including photons in the ...

Jet-powered humanoid iRonCub achieves simulated flight stability, paving the way for disaster-response and advanced robotics applications.

We previously covered one such “gravity telescope” with the Laser Interferometer Gravitational-Wave Observatory (LIGO). Another one is the Japanese project Kamioka Gravitational Wave Detector (KAGRA).

Visitors to this year's Tokyo Game Show can get their hands on an exclusive Psyvariar 3 demo by visiting SUCCESS' booth ...

A recent Physical Review Letters publication presents a thorough analysis of MicroBooNE detector data, investigating the anomalous surplus of neutrino-like events detected by the preceding MiniBooNE ...

Located 700 meters underground near the city of Jiangmen in southern China, a giant sphere—35 meters in diameter and filled with more than 20,000 tons of liquid—has just started a mission that will ...

Neutrinos are one of the most enigmatic particles in the standard model. The main reason is that they're so hard to detect. Despite the fact that 400 trillion of them created in the sun are passing ...

The highest energy neutrino ever detected from space may finally have an origin story. Mathematical analyses suggest that the ghost particle could’ve come from a theoretical object known as a ...