The QCD improved electroweak parameter

Abstract

In the present paper, we make a detailed analysis for the QCD corrections to the electroweak parameter by applying the principle of maximum conformality (PMC). As a comparison, we show that under the conventional scale setting, we have | N3LO = (8.257+0.045-0.012) ×10-3 by varying the scale μr∈[Mt/2, 2Mt]. By defining a ratio, R=/3Xt-1, which shows the relative importance of the QCD corrections, it is found that its scale error is 9 \% at the two-loop level, which changes to 4\% at the three-loop level and 2.5\% at the four-loop level, respectively. These facts well explain why the conventional scale uncertainty constitutes an important error for estimating the parameter. On the other hand, by applying the PMC scale setting, the four-loop estimation | N3LO shall be almost fixed to 8.228×10-3, which indicates that the conventional scale error has been eliminated. We observe the pQCD convergence for the parameter has also been greatly improved due to the elimination of the divergent renormalon terms. As applications of the present QCD improved parameter, we show the shifts of the W-boson mass and the effective leptonic weak-mixing angle due to can be reduced to δ MW| N3LO =0.7 MeV and δ 2θ eff| N3LO=-0.4×10-5.