Novel Method to Reliably Determine the QCD Coupling from R uds Measurements and its effects to Muon g-2 and α(MZ2) within the Tau-Charm Energy Region

Abstract

We present a novel method for precisely determining the QCD running coupling from R uds measurements in electron-positron annihilation. When calculating the fixed-order perturbative QCD (pQCD) approximant of R uds, its effective coupling constant αs(Q*2) is determined by using the principle of maximum conformality, a systematic scale-setting method for gauge theories, whose resultant pQCD series satisfies all the requirements of renormalization group. Contribution due to the uncalculated higher-order (UHO) terms is estimated by using the Bayesian analysis. Using R uds data measured by the KEDR detector at 22 centre-of-mass energies between 1.84 GeV and 3.72 GeV, we obtain αs(MZ2)=0.1227+0.0117-0.0132( exp.)0.0016( the.), where the theoretical uncertainty (the.) is negligible compared to the experimental one (exp.). Numerical analyses confirm that the new method for calculating R uds removes conventional renormalization scale ambiguity, and the residual scale dependence due to the UHO-terms will also be highly suppressed due to a more convergent pQCD series. This leads to a significant stabilization of the perturbative series, and a significant reduction of theoretical uncertainty. It thus provides a reliable theoretical basis for precise determination of the QCD running coupling from R uds measurements at future Tau-Charm Facility. It can also be applied for the precise determination of the hadronic contributions to muon g-2 and QED coupling α(MZ2) within the tau-charm energy range.