Some innovations in physics come from entirely new technologies, others from fresh theoretical insights. Others still take ...

Members of the University of Liverpool’s Particle Physics Research Frontier and accelerator scientists associated with the ...

Buried within the Antarctic ice are more than 5,000 light sensors that work together to detect some of the highest energy ...

The core part of the Jiangmen Underground Neutrino Observatory. [Photo provided to China Daily] The final stage of the construction of Jiangmen Underground Neutrino Observatory (JUNO) began on ...

Neutrino physics is a vibrant field of study, with spectacular recent advances. To this day, neutrino oscillations are the only experimental evidence of physics beyond the Standard Model, and, 25 ...

The joint NOvA-T2K analysis combined years of data to measure a neutrino mass difference with less than 2% uncertainty. Teams in Japan and the United States merged results from the NOvA and T2K ...

A high-precision neutrino experiment has delivered a decisive result that challenges a long-standing explanation for mysterious signals seen in earlier studies. By carefully dissecting how neutrinos ...

Far below the surface, a massive neutrino detector is doing what was once thought impossible. Built over nearly two decades, the experiment is already shaking the foundations of particle physics.

The international MicroBooNE experiment uses a 170-ton detector placed in Fermilab’s neutrino beam. The experiment studies neutrino interactions and has found no hint of a theorized fourth neutrino ...