The physics of these interactions is an important element of future experiments that will use liquid argon to detect ...

The KM3NeT telescopes, currently under construction, will catch high-energy neutrinos that could reveal secrets of the cosmos.

However, for the first time, two dark matter experiments have detected a neutrino fog, a dense cloud of neutrinos. This discovery is reported by researchers from XENON and PandaX — two ...

With a project of this size—around 800 miles long, to be precise—other discoveries are also possible. In fact, a recently ...

This liquid will produce flashes of light when neutrinos collide with matter, which are detected by an array of 43,200 photomultiplier tubes. Understanding neutrinos could provide critical ...

There's a significant imbalance between matter and antimatter in our universe, but a strange particle called "the Majoron" ...

As the massive 95-metric ton coldbox completed its cross-ocean journey, the crowd at Fermilab braving frigid winter ...

A new facility in China will soon begin hunting for ghostly neutrino particles in a spherical particle jail that’s nearly half a mile beneath a granite mountain. In order to det ...

Only charged particles with β > 1/n can be detected: this gives a threshold total energy of about 0.8 MeV for electrons, 160 MeV for muons and 1.4 GeV for protons and neutrons (somewhat higher in ...

Neutrinos are abundant in the cosmos but difficult to detect due to their weak interactions with matter. The JUNO project aims to measure the neutrino mass hierarchy, oscillation parameters and ...

neutrinos are the most elusive particles of the Standard Model. Although no less than 65 billion of them pass through every square centimetre of the Earth every second from the Sun alone, it took 25 ...