Eliminating the Hadronic Uncertainty

Abstract

The Standard Model Lagrangian requires the values of the fermion masses, the Higgs mass and three other experimentally well-measured quantities as input in order to become predictive. These are typically taken to be α, Gμ and MZ. Using the first of these, however, introduces a hadronic contribution that leads to a significant error. If a quantity could be found that was measured at high energy with sufficient precision then it could be used to replace α as input. The level of precision required for this to happen is given for a number of precisely-measured observables. The W boson mass must be measured with an error of 13\,MeV, Z to 0.7\,MeV and polarization asymmetry, ALR, to 0.002 that would seem to be the most promising candidate. The r\ole of renormalized parameters in perturbative calculations is reviewed and the value for the electromagnetic coupling constant in the MS renormalization scheme that is consistent with all experimental data is obtained to be α-1 MS(M2Z)=128.17.

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