Phenomenology of bivariate approximants: the pi0 to e+e- case and its impact on the electron and muon g-2

Abstract

The current 3σ discrepancy between experiment and Standard Model predictions for π0 e+e- is reconsidered using the Pad\'e Theory for bivariate functions, the Canterbury approximants. This method provides a model-independent data-driven approximation to the decay as soon as experimental data for the doubly virtual π0 transition form factor are available. It also implements the correct QCD constraints of the form factor both at low- and high-energies. We reassess the Standard Model result including, for the first time, a systematic error. Our result, BR(π0 e+e-)=6.23(5)× 10-8, still represents a discrepancy larger than 2σ, unsurmountable with our present knowledge of the Standard Model, and would claim New Physics if the experimental result is confirmed by a new measurement. Our method also provides the adequate tool to extract the doubly virtual form factor from experimental data in a straightforward manner. This measurement would further shrink our error and establish once and for all the New Physics nature of the discrepancy. In addition, we remark the challenge this discrepancy poses in the evaluation of the hadronic light-by-light scattering contribution to the (g-2)μ, specially confronted with the foreseen accuracy of the forthcoming (g-2)μ experiments.