Precision Tests of the Standard Model

Abstract

The implications of recent precision Z-pole, W mass, and weak neutral current data for testing the standard electroweak model, constraining the t quark and Higgs masses, , and grand unification are discussed. A fit to all data yields = 0.2328 0.0007 () or 1 - 2/2 = 0.2267 0.0024 (on-shell), where the uncertainties are mainly from . In the standard model one predicts = 150+19 + 15-24 - 20 GeV, where the central value assumes = 300 GeV and the second uncertainty is for 60 GeV (-) or 1 TeV (+). In the minimal supersymmetric extension of the standard model (MSSM) one predicts = 134+23-28 5 GeV, where the difference is due the light Higgs scalar expected in the MSSM. There is no significant constraint on \ until \ is known independently.

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