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

A team of researchers has developed a neutrino detector made of germanium crystals. When they installed the detector at the Leibstadt reactor in Switzerland, it caught 400 antineutrinos in 119 days.

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

New data from the NOvA experiment at Fermilab in the US contain no evidence for so-called “sterile” neutrinos, in line with ...

But we’d never heard of the Super-Kamiokande neutrino detector implosion until stumbling upon [Alexander the OK]’s video of the 2001 event. The first half of the video below describes ...

Quantum gravity is the missing link between general relativity and quantum mechanics, the yet-to-be-discovered key to a ...

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

you need both an intense neutrino source, to maximise the number of neutrinos, and a very large detector, to maximise the number of chances for each neutrino to interact Using water as the detection ...

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

The event that KM3NeT observed in 2023 is thought to be a single muon created by the charged-current interaction of an ...