The strong coupling from the revised ALEPH data for hadronic $Ï$ decays
arXiv:1410.3528 · doi:10.1103/PhysRevD.91.034003
Abstract
We apply an analysis method previously developed for the extraction of the strong coupling from the OPAL data to the recently revised ALEPH data for non-strange hadronic $Ï$ decays. Our analysis yields the values $α_s(m_Ï^2)=0.296\pm 0.010$ using fixed-order perturbation theory, and $α_s(m_Ï^2)=0.310\pm 0.014$ using contour-improved perturbation theory. Averaging these values with our previously obtained values from the OPAL data, we find $α_s(m_Ï^2)=0.303\pm 0.009$, respectively, $α_s(m_Ï^2)=0.319\pm 0.012$. We present a critique of the analysis method employed previously, for example in analyses by the ALEPH and OPAL collaborations, and compare it with our own approach. Our conclusion is that non-perturbative effects limit the accuracy with which the strong coupling, an inherently perturbative quantity, can be extracted at energies as low as the $Ï$ mass. Our results further indicate that systematic errors on the determination of the strong coupling from analyses of hadronic $Ï$-decay data have been underestimated in much of the existing literature.
41 pages, 15 figures, version published in Phys. Rev. D