Extracting $R_b$ and $R_c$ Without Flavor Tagging
arXiv:hep-ph/9601295 · doi:10.1103/PhysRevLett.76.3259
Abstract
At present, two outstanding discrepancies between experiment and the standard model are the measurements of the hadronic branching fractions $R_b$ and $R_c$. We note that an independent measurement of these branching fractions may be obtained from the width of hadronic $Z$ decays with a prompt photon, $Î_{qqγ}$, along with the total hadronic decay rate, $Î_{had}$, and an additional theoretical assumption. Such an analysis requires no flavor tagging. We consider several plausible theoretical assumptions and find that the current value of $Î_{qqγ}$ favors larger $R_b$ and smaller $R_c$ relative to standard model predictions, in accord with the direct measurements. If $Î_{qqγ}$ and $Î_{had}$ are combined with the direct measurements, generation-blind corrections to all up-type and all down-type quark widths are most favored. An updated measurement of $Î_{qqγ}$ with the currently available LEP data is likely to provide an even stronger constraint on both the branching fraction discrepancies and their possible non-standard model sources.
9 pages (LaTeX), 1 figure