Scientists working at CERN’s Large Hadron Collider may be seeing the strongest hints yet of physics beyond the Standard Model — the decades-old theory that explains the fundamental particles and ...

Physicists at the world’s largest atom collider have observed three new exotic particles as they continue to search for clues about the mysterious forces that bind subatomic particles together, they ...

Deep beneath the Swiss countryside, inside a ring of machinery nearly four miles across that has been running since the 1970s, physicists have been chasing something they could not see, could not ...

A small amount of antimatter took to the road on Tuesday, representing the first time any quantity of the world’s most expensive, volatile and rare substance has been moved. The breakthrough opens the ...

Muons are a key subatomic particle in the discovery of new physics, but after particle collision, they’re difficult to track.

An invisible force has long eluded detection within the halls of the world’s most famous particle accelerator—until now.

The CERN Council has designated the Future Circular Collider (FCC-ee) as the preferred successor project to the LHC. A final ...

The new CMS study examined collisions between oxygen nuclei, which are much smaller than lead nuclei. Oxygen contains just 16 ...

Recent findings from research we have been carrying out at the Large Hadron Collider (LHC) at Cern in Geneva suggest that we might be closing in on signs of undiscovered physics. If confirmed, these ...

Israeli researchers from Technion, Tel Aviv University and the Weizmann Institute play important roles in CERN research. And this has been the case for over 30 years. GENEVA – In boxing, a fighter is ...

CERN is the only place on Earth that manufactures antimatter particles via high-energy collisions. Just a tiny amount of antimatter is capable of generating an explosion equivalent to a nuclear bomb.