Abstract
Recent results from the NuTeV experiment at Fermilab and the deviation of the Z invisible width, measured at LEP/SLC, from its Standard Model (SM) prediction suggest the suppression of neutrino-Z couplings. Such suppressions occur naturally in models which mix the neutrinos with heavy gauge singlet states. We postulate a universal suppression of the Z�� couplings by a factor of (1 − ) and perform a fit to the Z-pole and NuTeV observables with and the oblique correction parameters S and T. Compared to a fit with S and T only, inclusion of leads to a dramatic improvement in the quality of the fit. The values of S and T preferred by the fit can be obtained within the SM by a simple increase in the Higgs boson mass. However, if the W mass is also included in the fit, a non-zero U parameter becomes necessary which cannot be supplied within the SM. The preferred value of suggests that the seesaw mechanism may not be the reason why neutrinos are so light.
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