Pioneering work Illustration of how a proton collision (left) at the Large Hadron Collider creates a beauty baryon (centre) ...

In a first, CERN physicists succeeded in observing matter-antimatter imbalance in baryons, fundamental particles that make up ...

Scientists have analyzed data gathered from CERN’s Large Hadron Collider to advance our understanding of why anything exists.

The Standard Model of particle physics—the theory of particles and interactions at the smallest scale—predicts that matter ...

Physicists working at the CERN particle physics lab said they detected a slight but significant difference in how particles ...

For instance, there was a chance that antimatter could be repelled by gravity rather than attracted – meaning it would fall ...

The first-known observations of matter–antimatter asymmetry in a decaying composite subatomic particle that belongs to the ...

Scientists observe CP violation in baryons, a key clue in understanding why matter dominates the universe over antimatter.

CERN physicists observed matter-antimatter imbalance in a baryon. Antiparticles possess the same mass as matter but opposite ...

So physicists have been on the hunt for any sign of difference between matter and antimatter, known in the field as a ...

Physicists at CERN have observed a matter-antimatter imbalance in baryons, offering new insights into why matter prevails in ...

Charmed physics: The LHCb detector has spotted CP violation in charm mesons for the first time. (Courtesy: CERN) Particle physicists at CERN have measured charge-parity (CP) violation in the D 0 meson ...