Scientists have used CERN's Large Hadron Collider (LHC) to uncover what they say is an entirely new type of particle, dubbed ...

CERN scientists have uncovered a new proton-like particle, the Ξcc+, revealing a heavier and long-predicted member of the ...

Signals recorded by components of the sPHENIX calorimeter, which measures the energy of particles streaming from collisions, during a full-energy (200-billion-electron-volt) gold-gold collision at the ...

A network of glass-sphere sensors anchored deep in the Mediterranean Sea has recorded an ultra-high-energy neutrino event and inferred a parent neutrino energy of roughly 220 peta-electronvolts, ...

Particle accelerators reveal the heart of nuclear matter by smashing together atoms at close to the speed of light. The ...

Add Yahoo as a preferred source to see more of our stories on Google. A powerful new particle detector has passed its first major test in the hunt for clues about the early universe. The sPHENIX ...

The new particle, named Xi-cc-plus, carries two heavy charm quarks and is about four times heavier than an ordinary proton.

In 2024, the T2K Collaboration started to collect new neutrino data following several upgrades to the experiment that included new types of detectors. One of these, called SuperFGD, has a mass of ...

Snappily named Xi-cc-plus, Cern physicists spotted the particle in shower of debris that lit up Large Hadron Collider ...

The field of particle detection and identification has witnessed transformative progress, propelled by rapid developments in sensor design, readout electronics and computational modelling. Advanced ...

Researchers have discovered that superconducting nanowire photon detectors can also be used as highly accurate particle detectors, and they have found the optimal nanowire size for high detection ...