The strong coupling from an improved $\tau$ vector isovector spectral function
Abstract
We combine ALEPH and OPAL results for the spectral distributions measured in , and decays with (i) recent BaBar results for the analogous distribution and (ii) estimates of the contributions from other hadronic -decay modes obtained using CVC and electroproduction data, to obtain a new and more precise non-strange, inclusive vector, isovector spectral function. The BaBar and CVC/electroproduction results provide us with alternate, entirely data-based input for the contributions of all exclusive modes for which ALEPH and OPAL employed Monte-Carlo-based estimates. We use the resulting spectral function to determine , the strong coupling at the mass scale, employing finite energy sum rules. Using the fixed-order perturbation theory (FOPT) prescription, we find , which corresponds to the five-flavor result at the mass. While we also provide an estimate using contour-improved perturbation theory (CIPT), we point out that the FOPT prescription is to be preferred for comparison with other determinations employing the scheme, especially given the inconsistency between CIPT and the standard operator product expansion recently pointed out in the literature. Additional experimental input on the dominant and modes would allow for further improvements to the current analysis.
Keywords
Cite
@article{arxiv.2012.10440,
title = {The strong coupling from an improved $\tau$ vector isovector spectral function},
author = {Diogo Boito and Maarten Golterman and Kim Maltman and Santiago Peris and Marcus V. Rodrigues and Wilder Schaaf},
journal= {arXiv preprint arXiv:2012.10440},
year = {2021}
}
Comments
38 pages, 8 figures, published version