R(b), R(c) and New Physics: An Updated Model Independent Analysis
Abstract
We analyze LEP and SLC data from the 1995 Summer Conferences as well as from low energy neutral current experiments for signals of new physics. The reasons for doing this are twofold, first to explain the deviations from the standard model observed in Rb and Rc and second to constrain non-standard contributions to couplings of the Z0 boson to all fermions and to the oblique parameters. We do so by comparing the data with the Standard Model as well as with a number of test hypotheses concerning the nature of the new physics. These include non-standard Zbb-, Zcc- and Zss-couplings as well as the couplings of the Z0 to fermions of the entire first, second and third generations and universal corrections to all up- and down-type quark couplings (as can arise \ in Z' mixing models). We find that non-standard Zbb couplings are both necessary and sufficient to explain the data and in particular the Rb anomaly. It is not possible to explain Rb, Rc and a value of the strong coupling constant consistent with low energy determinations invoking only non-standard Zbb- and Zcc-couplings. To do so one has to have also new physics contributions to the Zss or universal corrections to all Zqq couplings.
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