In a breakthrough for antimatter research, the BASE collaboration at CERN has kept an antiproton—the antimatter counterpart ...

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

Physicists at CERN have successfully created an antimatter qubit, a landmark achievement that could help probe the differences between matter and antimatter.

New research predicts surprisingly large CP violation effects in charmed baryon decays, an essential step toward solving the ...

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

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

The finding offers vital clues to the long-standing mystery of why the universe is composed predominantly of matter, rather ...

Particles and antiparticles have opposite charges, and they annihilate if they interact, turning into pure energy. In the Big ...

The new research work is based on data from the LHCB experiment, which was specially developed to discover fine differences – so -called CP injuries – between matter and antimatter. This violation of ...

Recent theoretical research suggests that charmed baryon decays may exhibit unexpectedly large CP violation, potentially ...

Matter and antimatter should have completely wiped each other out eons ago, leaving the Universe a very empty place. Obviously that didn't happen. Experiments at the Large Hadron Collider (LHC ...