Strong Coupling Constant from τ Decay within a Dispersive Approach to Perturbative QCD

Abstract

We present a new dispersive framework for the extraction of the strong coupling constant αs from τ-lepton decays. A new feature of our procedure is the use of the quark-hadron duality on the limited region s d<s<mτ2. The duality point s d and the MS strong coupling constant αs(mτ2) are self-consistently extracted from the τ data for the non-strange vector spectral function. We use 2005 ALEPH and 1998 OPAL experimental data on the vector spectral function. We compare the new framework with the contour improved perturbation theory up to order αs5. The new procedure yields systematically lower values for αs. From the 2005 ALEPH data, we obtain αs(mτ2)=0.308 0.014 exp 0.005 th which corresponds to αs(M_z2)=0.1170 0.0018 exp 0.0007 th 0.0005 ev. The extracted value for the duality point s d is found surprisingly stable against perturbation theory corrections s d= 1.71 0.05 exp 0.00 th\,\, GeV2. From the 1998 OPAL data, we obtain αs(mτ2)=0.290 0.023 exp and s d=1.68 0.10 exp\,\, GeV2.