The award, sponsored by the Gordon and Betty Moore Foundation, provides $1.3 million in funding over five years to each of ...

On August 26, the Jiangmen Neutrino Experiment successfully completed the infusion of 20,000 tons of liquid scintillator and officially began data collection, marking the start of a new era in ...

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, a ...

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

Note: The verification e-mail to complete your account registration should arrive immediately. However, in some cases it ...

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Where did all the matter in the universe come from? This is one of the biggest mysteries in fundamental physics, and exciting results released from the international T2K neutrino experiment in Japan ...

Neutrino physics remains a pivotal area in the quest to unravel fundamental aspects of particle behaviour and the evolution of the universe. Neutrinos—elusive, nearly massless particles—are known to ...

For more than a century, scientists have been fascinated by the possibility that hidden, minuscule spatial dimensions could ...

About a trillion tiny particles called neutrinos pass through you every second. Created during the Big Bang, these “relic” neutrinos exist throughout the entire universe, but they can’t harm you. In ...

The experimental neutrino physics group is involved in three experiments around the world, described below. Our research involves the study of fundamental subatomic particles called neutrinos. In ...