As if atoms weren’t already mind-blowingly small, never mind subatomic particles, CERN researchers in the CMS Collaboration were sifting through data from the Large Hadron Collider (LHC) and ...

The discovery of the new antihypernucleus could help scientists better understand the state of the universe just a millionth of a second after the Big Bang.

The KATRIN experiment in Germany nearly halved the maximum possible mass for neutrinos, setting it at 0.45 electron volts.

In their search for more flavors of Higgs bosons, a team of researchers at CERN stumbled across what could be evidence of the smallest matter-antimatter ... never mind subatomic particles, CERN ...

This is only the third hypernuclei ever discovered, and it could help scientists better understand things like the matter-antimatter asymmetry ... and sift through the subatomic mess, and one ...

P hysicists have struggled for seven decades with the question of why there is more matter in the universe than antimatter. Analysis of decay of certain subatomic particles observed using the ...

Eight Odisha scientists win Breakthrough Prize 2025 at CERN for particle physics. Recognised for LHC Run-2 work from NISER, ...

And LHCb explores minute differences between matter and antimatter, violation of fundamental symmetries ... of what would later become known as the Standard Model of the subatomic particles. He proved ...

Physicists working on the ATLAS experiment on the Large Hadron Collider (LHC) are the first to report the production of top quark–antiquark pairs in collisions involving heavy nuclei. By colliding ...