Physics
Scientific paper
Apr 2003
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2003aps..apr.g1003k&link_type=abstract
American Physical Society, April Meeting, 2003, April 5-8, 2003 Philadelphia, Pennsylvania, MEETING ID: APR03, abstract #G1.003
Physics
Scientific paper
In May 1999, a new generation of particle-physics experiments recorded the first collisions from some of the most intense particle beams ever created: BABAR at the Stanford Linear Accelerator Center and BELLE at KEK in Japan. The ultimate goal of these experiments is to shed new light on one of the least understood aspects of particle physics: Why does the universe contain more matter than antimatter today? We do this by testing our understanding (the Standard Model) of matter-antimatter asymmetries in the oscillations and decays of b quarks. The first results from the new experiments confirmed the Standard Model. This was a triumph for the theory, but deepens the puzzle since the Standard Model cannot explain the size of the observed asymmetry in the universe today. In this talk, I will review the latest results from the new experiments and highlight some interesting prospects for future progress.
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