Measurement of the Strong Coupling Constant and the Vector and Axial-Vector Spectral Functions in Hadronic Tau Decays

Abstract

The spectral functions of the vector current and the axial-vector current have been measured in hadronic tau decays using the OPAL detector at LEP. Within the framework of the Operator Product Expansion a simultaneous determination of the strong coupling constant alphas, the non-perturbative operators of dimension 6 and 8 and of the gluon condensate has been performed. Different perturbative descriptions have been compared to the data. The Contour Improved Fixed Order Perturbation Theory gives alphas(mtau**2) = 0.348 +- 0.009 +- 0.019 at the tau-mass scale and alphas(mz**2) = 0.1219 +- 0.0010 +- 0.0017 at the Z-mass scale. The values obtained for alphas(mz**2) using Fixed Order Perturbation Theory or Renormalon Chain Resummation are 2.3% and 4.1% smaller, respectively. The running of the strong coupling between s0 ~1.3 GeV**2 and s0 = mtau**2 has been tested from direct fits to the integrated differential hadronic decay rate Rtau. A test of the saturation of QCD sum rules at the tau-mass scale has been performed.

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