Isospin-breaking effects in the three-pion contribution to hadronic vacuum polarization

Abstract

Isospin-breaking (IB) effects are required for an evaluation of hadronic vacuum polarization at subpercent precision. While the dominant contributions arise from the e+e-π+π- channel, also IB in the subleading channels can become relevant for a detailed understanding, e.g., of the comparison to lattice QCD. Here, we provide such an analysis for e+e- 3π by extending our dispersive description of the process, including estimates of final-state radiation (FSR) and -ω mixing. In particular, we develop a formalism to capture the leading infrared-enhanced effects in terms of a correction factor η3π that generalizes the analog treatment of virtual and final-state photons in the 2π case. The global fit to the e+e- 3π data base, subject to constraints from analyticity, unitarity, and the chiral anomaly, gives aμ3π|≤ 1.8\,GeV=45.91(53)× 10-10 for the total 3π contribution to the anomalous magnetic moment of the muon, of which aμFSR[3π]=0.51(1)× 10-10 and aμ-ω[3π]=-2.68(70)× 10-10 can be ascribed to IB. We argue that the resulting cancellation with -ω mixing in e+e- 2π can be understood from a narrow-resonance picture, and provide updated values for the vacuum-polarization-subtracted vector-meson parameters Mω=782.70(3)\,MeV, Mφ=1019.21(2)\,MeV, ω=8.71(3)\,MeV, and φ=4.27(1)\,MeV.