Learn why the neutrino detector aims to capture elusive particles, hoping to reveal why the universe is the way it is.

These particles are so ghostly that trillions of them pass through Earth each day without notice. So, how do we detect them?

Hong Kong-born physicist recalls honeymoon era of collaboration and ‘stroke of luck’ that launched Daya Bay Reactor Neutrino ...

Europe's physics lab CERN is planning to build a particle-smasher even bigger than its Large Hadron Collider to continue ...

The Future Circular Collider would be more than three times the size of Europe's Large Hadron Collider. Read more at ...

In the second instalment of a series to mark the 10th anniversary of the Future Science Prize, Victoria Bela looks at Professor Kam-Biu Luk’s experimental discovery of a new type of neutrino ...

Experts have unveiled the most detailed images yet of the universe’s infancy, capturing light that traveled for more than 13 billion years.

The Tokai-to-Kamioka (T2K) long-baseline neutrino experiment measures neutrino oscillations over a baseline of 295 km using a ...

Scientists are diving into the deep sea to study one of the universe’s biggest mysteries—quantum gravity. Using KM3NeT, a ...

LEAD — Fermilab is expanding its presence in Lead, both on the surface and underground.

The Super-Kamiokande and T2K Collaborations present a joint measurement of neutrino oscillation parameters from their atmospheric and beam neutrino ...