Matter and antimatter particles can behave differently, but where these differences show up (and where they don’t) is still a puzzle. About 90% of people are right-handed. This human preference for ...

A new pentaquark – an exotic hadron comprising five quarks – has been discovered by physicists working on the LHCb experiment at CERN. LHCb scientists have also found that a feature in their data that ...

Physicists working at the CERN particle physics lab said they detected a slight but significant difference in how particles of matter and antimatter decay. By Kenneth Chang Understanding why matter ...

Cracow, 23 November 2023 - High-energy ion collisions at the Large Hadron Collider are capable of producing a quark-gluon plasma. But are heavy atomic nuclei really necessary for its formation? And ...

A result from the LHCb experiment shows what could be the first evidence of matter and antimatter baryons behaving differently. A new result from the LHCb experiment at CERN could help explain why our ...

No pairs: the first ‘open flavour’ tetraquark has been spotted at CERN (Courtesy: Shutterstock/paul_june) The first tetraquark composed of four quarks of ...

What happened at the beginning of the universe, in the very first moments? The truth is, we don’t really know because it takes huge amounts of energy and precision to recreate and understand the ...