Neutrinos have long perplexed physicists with their uncanny ability to evade detection, with as many as two-thirds of the ghostly particles apparently going missing en route from the Sun to Earth. Now ...

Members of the International Daya Bay Collaboration, who track the production and flavor-shifting behavior of electron antineutrinos generated at a nuclear power complex in China, have obtained the ...

Located in China, Juno is a 17-country collaboration that will try to detect neutrinos and antineutrinos to learn more about ...

Antineutrino search: the NOvA detector in northern Minnesota. (Courtesy: Fermilab/Reidar Hahn) The best evidence yet that muon antineutrinos can change into electron antineutrinos has been found by ...

Forbes contributors publish independent expert analyses and insights. The Universe is out there, waiting for you to discover it. Every form of matter that we know of in the Universe is made up of the ...

The T2K Collaboration has published new results showing the strongest constraint yet on the parameter that governs the breaking of the symmetry between matter and antimatter in neutrino oscillations.

Neutrino physics lies at the heart of modern astrophysics, offering unique insights into the mechanisms powering some of the Universe’s most energetic events. These nearly massless particles, only ...

A new discovery provides a crucial key to understanding how neutrinos — ghostly particles with multiple personalities — change identity and may help shed light on why matter exists in the universe. In ...

Glashow event visualization: each coloured circle shows an IceCube sensor that was triggered by the event; red circles indicate sensors triggered earlier in time, and green-blue circles indicate ...

A nuclear theory group experiment paves the way for solving the reactor antineutrino flux problems. The experiment is designed to measure the mass of the neutrino. As a by product of the calibration ...