Low-energy constants and condensates from the tau hadronic spectral functions

Abstract

We use results of fits to the OPAL spectral data, obtained from non-strange hadronic τ decays, to evaluate the difference between the vector and axial current correlators, V-A(Q2). The behavior of V-A(Q2) near euclidean momentum Q2=0 is used to determine the effective low-energy constants L10eff and C87eff related to the renormalized low-energy constants L10r and C87r in the chiral lagrangian. We also investigate how well two-loop chiral perturbation theory describes V-A(Q2) as a function of Q2. This is the first determination of L10eff and C87eff to employ a fully self-consistent model for the violations of quark-hadron duality in both the vector and axial channels. We also discuss the values of the coefficients C6,V-A and C8,V-A governing the dimension six and eight contributions to the operator product expansion representation of V-A(Q2).