The KM3NeT telescope comprises two detectors, ARCA and ORCA, utilizing seawater to capture Cherenkov light—a bluish glow produced when neutrinos interact with water molecules.

Three and a half kilometers beneath the Mediterranean Sea, around 80km off the coast of Sicily, lies half of a very unusual telescope called KM3NeT.

The international collaboration that operates the KM3NeT experiment, a powerful telescope submerged in the depths of the ...

Europe is building a huge observatory for neutrinos in the Mediterranean. Although it is not yet finished, it has already set ...

Neutrinos, often referred to as ‘ghost particles,’ are nearly massless and can travel through matter without significant ...

An international collaboration of 68 institutes, including the French National Center for Scientific Research (CNRS), has ...

TNO, in collaboration with KM3NeT, has detected the universe's most energetic neutrino at 220 PeV using a deep sea telescope.

Scientists have just detected a neutrino that is thirty times more energetic than any previously detected anywhere in the world. This exceptional discovery opens up new perspectives for understanding ...

Brave New World is about to hit cinemas, bringing with it the gamma-ray-powered Red Hulk. Here's what you need to know about ...

A neutrino telescope, therefore, is a giant exercise in statistics. Observe lots of atoms for a long time and sooner or later ...

A huge detector in the Mediterranean Sea spotted the most energetic neutrino from space to date. The particle could shed ...

Astronomers using a giant network of sensors, still under construction at the bottom of the Mediterranean Sea, have found the highest-energy cosmic “ghost particle” ever detected.