A recent study published in Nature combines data from two major experiments - NOvA in the United States and T2K in Japan - to observe with unprecedented precision how neutrinos, particles capable ...

Scientists from two large neutrino studies in the U.S. and Japan join forces to see if the elusive particle might lie at the ...

In a Physical Review Letters study, the HOLMES collaboration has achieved the most stringent upper bound on the effective ...

Collaborative experiments focus on uncovering the unusual properties of the ghost particle. In a recent study, physicists have created the clearest and most detailed view so far of how neutrinos shift ...

Physicists have been chasing one of the universe’s strangest mysteries—neutrinos, nearly invisible particles that zip through ...

In a rare global collaboration, scientists from Japan and the United States joined forces to explore one of the universe’s ...

More than 200 physicists gathered in Liverpool from 1 to 6 September 2025 for the 26th International Workshop on Neutrinos ...

There is a limit to how big we can build particle colliders on Earth, whether that is because of limited space or limited economics. Since size is equivalent to energy output for particle colliders, ...

New research reveals how ghost particles may break the universe’s symmetry, offering clues to why matter—and life—exist at all.

The new study is providing insight into the difference in mass between neutrino types, a key unanswered question.

Explore the KM3NeT project: a cutting-edge neutrino telescope utilizing deep-sea technology and 3D printed components.

Astronomers observe Type II supernova SN 2024bch behaving differently, with energy from Bowen fluorescence rather than ejecta interaction, challenging models of stellar death and high-energy neutrino ...