The Big Bang created equal amounts of matter and antimatter. So, why is there so much more matter than antimatter in the Universe? Irfu is participating in the preparation of Hyper-Kamiokande, ...

Scientists have taken a major step towards finding elusive types of tiny, 'ghost-like' particles, and potentially new physics. For the first time, neutrinos have been spotted by the Short-Baseline ...

A tiny neutrino detector has found its footing in a fresh setting — at a nuclear reactor. Conventional detectors of the subatomic particles require metric tons of material. But the new detector has a ...

A nuclear power plant in Liebstadt, Switzerland, hosted the CONUS+ neutrino detector. Physicists have caught neutrinos from a nuclear reactor using a device weighing just a few kilograms, orders of ...

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 ...

India's ambitious Neutrino Observatory project in Tamil Nadu lies in limbo after two decades of preparation, facing political ...

Geneva, 15 August 2005. Scientists at CERN1 today announced the completion of the target assembly for the CERN neutrinos to Gran Sasso project, CNGS. On schedule for start-up in May 2006, CNGS will ...

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

Neutrino detectors don’t grow on trees. Or do they? Forests could one day be used to spot ultra-high-energy neutrinos, a physicist proposes. Trees could act as natural antennas that pick up radio ...