Tests of hadronic vacuum polarization fits for the muon anomalous magnetic moment

Abstract

We construct a physically motivated model for the isospin-one non-strange vacuum polarization function Pi(Q2) based on a spectral function given by vector-channel OPAL data from hadronic tau decays for energies below the tau mass and a successful parametrization, employing perturbation theory and a model for quark-hadron duality violations, for higher energies. Using a covariance matrix and Q2 values from a recent lattice simulation, we then generate fake data for Pi(Q2) and use it to test fitting methods currently employed on the lattice for extracting the hadronic vacuum polarization contribution to the muon anomalous magnetic moment. This comparison reveals a systematic error much larger than the few-percent total error sometimes claimed for such extractions in the literature. In particular, we find that errors deduced from fits using a Vector Meson Dominance ansatz are misleading, typically turning out to be much smaller than the actual discrepancy between the fit and exact model results. The use of a sequence of Pad\'e approximants, recently advocated in the literature, appears to provide a safer fitting strategy.