Revisit of the electromagnetic correction to τππντ and its implication for muon g-2 based on τ data

Abstract

In this work we focus on the evaluation of the leading-order hadronic vacuum polarization contribution from the ππ channel to the muon anomalous magnetic moment aμ by using the experimental τππντ data. The isospin breaking corrections play the decisive role in this approach of computing aμ. One of such important isospin breaking sources is the long-distance electromagnetic correction factor G EM of the τππντ process from the real photon radiation. The latter effect can be calculated from the τππντγ amplitude, which is revised in this work within the resonance chiral theory by simultaneously including the even-intrinsic-parity and odd-intrinsic-parity resonance operators. We update the determination of the only unknown resonance coupling through the ωπ0π0γ decay by including contributions from both the vector and scalar resonances. By taking other remaining contributions from the muon g-2 White Paper 2025, we further revise the complete value of aμ, which turns out to deviate from the newest world average result after Fermilab's measurement at the level of 2.7 σ.