Scientists have analyzed data gathered from CERN’s Large Hadron Collider to advance our understanding of why anything exists. That existential statement is necessary because scientists think that the ...

Current models of physics dictate there should be as much antimatter in the universe as matter, but there isn't. Work at the ...

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

The new measurement from LHCb has found differences between baryons and antibaryons, which are made of three quarks and three ...

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

This discovery has the potential to provide valuable insights into why matter is more prevalent than antimatter in the universe.

The LHCb experiment at the Large Hadron Collider is designed to make highly precise measurements of differences in the behaviour of matter and antimatter. The experiment is operated by an ...

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

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

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

Since the 1960s, we have known that these particles violate the so-called charge-parity (CP) symmetry. The antimatter counterpart behaves in a different way. It had long been suspected, with ...