Hadronic vacuum polarization and vector-meson resonance parameters from e+e-π0γ

Abstract

We study the reaction e+e-π0γ based on a dispersive representation of the underlying π0γγ* transition form factor. As a first application, we evaluate the contribution of the π0γ channel to the hadronic-vacuum-polarization correction to the anomalous magnetic moment of the muon. We find aμπ0γ|≤ 1.35\,GeV=43.8(6)× 10-11, in line with evaluations from the direct integration of the data. Second, our fit determines the resonance parameters of ω and φ. We observe good agreement with the e+e-3π channel, explaining a previous tension in the ω mass between π0γ and 3π by an unphysical phase in the fit function. Combining both channels we find Mω=782.736(24)\,MeV and Mφ=1019.457(20)\,MeV for the masses including vacuum-polarization corrections. The φ mass agrees perfectly with the PDG average, which is dominated by determinations from the K K channel, demonstrating consistency with 3π and π0γ. For the ω mass, our result is consistent but more precise, exacerbating tensions with the ω mass extracted via isospin-breaking effects from the 2π channel.