Contribution of neutral pseudoscalar mesons to aμHLbL within a Schwinger-Dyson equations approach to QCD

Abstract

A continuum approach to Quantum Chromodynamics (QCD), based upon Schwinger-Dyson (SD) and Bethe-Salpeter (BS) equations, is employed to provide a tightly constrained prediction for the γ* γ* → \ π0, η, η', ηc, ηb \ transition form factors (TFFs) and their corresponding pole contribution to the hadronic light-by-light (HLbL) piece of the anomalous magnetic moment of the muon (aμ). This work relies on a practical and well-tested quark-photon vertex Ansatz approach to evaluate the TFFs for arbitrary space-like photon virtualities, in the impulse approximation. The numerical results are parametrized meticulously, ensuring a reliable evaluation of the HLbL contributions to aμ. We obtain: aμπ0-pole = (6.14 0.21) × 10-10, aμη-pole = (1.47 0.19) × 10-10, aμη'-pole = (1.36 0.08) × 10-10, yielding a total value of aμπ0+η+η'-pole = (8.97 0.48) × 10-10, compatible with contemporary determinations. Notably, we find that aμηc+ηb-pole ≈ aμηc-pole = (0.09 0.01) × 10-10, which might not be negligible once the percent precision in the computation of the light pseudoscalars is reached.