Nuclear fission is the most reliable source of antineutrinos, but they are difficult to characterize. A recent study suggests ...

It will soon begin the difficult task of spotting neutrinos: tiny cosmic particles with a mind-bogglingly small mass.

The JUNO experiment, which will study the ways of the electrically neutral subatomic particles, will be the largest of its kind.

JUNO will identify the heaviest neutrino type using advanced detectors Located 700m underground, JUNO features a 35m-wide acrylic sphere Antineutrinos from nearby nuclear plants will be key to JUNO's ...

Beneath a granite hill in southern China, the Jiangmen Underground Neutrino Observatory (JUNO) is nearing completion, poised ...

A massive £238 million detector is all set to uncover some mind-boggling mysteries of the universe. The detector in Kaiping, ...

Compared to similar neutrino experiments using liquid scintillator, JUNO's detector is 20 times larger in volume, has three times higher photoelectron yield, and is twice as accurate in energy ...

underground at the Jiangmen Underground Neutrino Observatory in Kaiping, southern China's Guangdong province on October 11, 2024. International collaboration is a... Workers labor on the underside ...

JUNO is set to begin operations in late 2025 to detect around 100,000 neutrinos, including solar, atmospheric, and ...

The Jiangmen Underground Neutrino Observatory will soon begin the difficult task of spotting neutrinos: tiny cosmic particles with a mind-bogglingly small mass.