New CERN LHC Experiment --"Clues to the Dominance of Matter Over Antimatter in the Universe"
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April 24, 2013

New CERN LHC Experiment --"Clues to the Dominance of Matter Over Antimatter in the Universe"

 

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The Bullet Cluster shown above, located about 3.8 billion light years from Earth, has been used to search for the presence of antimatter leftover from the very early Universe. Antimatter is made up of elementary particles that have the same masses as their corresponding matter counterparts -- protons, neutrons and electrons -- but the opposite charges and magnetic properties. It combines an image from NASA's Chandra X-ray Observatory with optical data from the Hubble Space Telescope and Magellan telescope in Chile. This cluster, officially known as 1E 0657-56, was formed after the violent collision of two large clusters of galaxies.

Matter and antimatter are thought to have existed in equal amounts at the beginning of the universe, but today the universe appears to be composed essentially of matter. By studying subtle differences in the behaviour of particle and antiparticles, experiments at the LHC are seeking to cast light on this dominance of matter over antimatter.

The ongoing LHCb experiment outside Geneva has observed a preference for matter over antimatter known as CP-violation in the decay of neutral B0s particles. The results are based on the analysis of data collected by the experiment in 2011. Violation of the CP symmetry was first observed at Brookhaven Laboratory in the US in the 1960s in neutral particles called kaons. About 40 years later, experiments in Japan and the US found similar behaviour in another particle, the B0 meson. More recently, experiments at the so-called B factories and the LHCb experiment at CERN have found that the B+ meson also demonstrates CP violation. The CP violation phenomena can be accounted for in the Standard Model, although some interesting discrepancies demand more detailed studies.

"The discovery of the asymmetric behaviour in the B0S particle comes with a significance of more than 5 sigma -- a result that was only possible thanks to the large amount of data provided by the LHC and to the LHCb detector's particle identification capabilities," says Pierluigi Campana, spokesperson of the LHCb collaboration. "Experiments elsewhere have not been in a position to accumulate a large enough number of B0s decays."

"We also know that the total effects induced by Standard Model CP violation are too small to account for the matter-dominated Universe," says Campana. "However, by studying these 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 physics beyond the Standard Model."

The Daily Galaxy via CERN, the European Organization for Nuclear Research.

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Dear CERN, my mother in law is pure antimatter.


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