A new “culprit” for matter-antimatter asymmetry

In our matter-dominated Universe, the observation of new processes showing matter-antimatter asymmetry allows scientists to test their theories and, possibly, to explore new territories. The LHCb collaboration has recently observed matter-antimatter asymmetries in the decays of the B0s meson, which thus becomes the fourth particle known to present such behaviour.

 

The VELO detector: a crucial element for particle identifiation in LHCb.

Almost all physics processes known to scientists show perfect symmetry if a particle is interchanged with its antiparticle (C symmetry), and then if left and right are swapped (P symmetry). So it becomes very hard to explain why the Universe itself does not conform to this symmetry and, instead, shows a huge preference for matter. Processes that violate this symmetry are rare and of great interest to scientists.

Violation of the CP symmetry in neutral kaons was first observed by Nobel Prize Laureates James Cronin and Val Fitch in the 1960s. About 40 years later, another particle, the B0 meson (composed of a bottom antiquark and a down quark), showed similar behaviour in the BaBar detector at SLAC in the US and in the Belle detector at KEK in Japan. In more recent experiments at the B factories and the LHCb experiment at CERN, the B+ meson (made of a bottom antiquark and an up quark) was also found to demonstrate behaviour different to that of its corresponding antiparticle.

Today, the LHCb collaboration has discovered asymmetric behaviour in the B0S particle (a bottom antiquark and a strange quark). “We have analysed a data sample corresponding to an integrated luminosity of 1 inverse femtobarn collected by the experiment in 2011,” explains Pierluigi Campana, Spokesperson of the LHCb collaboration. “Previous experiments installed at dedicated B factories and at the Tevatron were not in a position to accumulate large enough B0s decay samples. Thanks to the LHC statistics and the LHCb detector particle identification capabilities, CP violation in the B0s-> K-π+ decay has been observed for the first time with a significance of more than 5 sigma. ”

All these CP violation phenomena can be accounted for in the Standard Model theory incorporating the Cabibbo-Kobayashi-Maskawa (CKM) mechanism of quark-flavour mixing, though some interesting discrepancies demand more detailed studies. “From the same theory we also know that the total effects induced by Standard Model CP violation are too small to account for the matter-dominated Universe,” Pierluigi Campana concludes. “By studying CP violation effects we are looking for the missing pieces of the puzzle, which provide stringent tests of the theory and are a sensitive probe for revealing the presence of non-Standard Model physics.”

by Antonella Del Rosso