A comment on the impact of CMD-3 e+e- π+π- cross section measurement on the SM gμ-2 value

Abstract

We estimated an impact of the recent CMD-3 measurement of the e+e- π+π- total cross section at 0.3 < s < 1.2 GeV on the leading order hadronic contribution aμhad,LO to the muon anomalous magnetic moment aμ = (gμ-2)/2, in presence of comparably precise ISR measurements of the cross section by BaBar and KLOE experiments being in significant tension with the CMD-3. Assuming that all the experiments are affected by yet unidentified systematic effects, to account for the latter, we scaled the experimental uncertainties following the PDG prescription, thus facilitating a consistent joint fit of the world data on the e+e- π+π- total cross section. The same procedure was applied in all e+e- hadrons channels contributing to the dispersive estimate of aμhad,LO. Despite an inclusion of the new CMD-3 π+π- data, our estimate aμhad,LO(e+e-) = (696.2 2.9) × 10-10 is consistent with aμhad,LO(e+e-) values obtained by other authors before publication of the CMD-3 result. Including our aμhad,LO value into the SM prediction for aμ, we obtain aμSM = (11~659~184 4tot) × 10-10 which is by 4.7σ smaller than the world average for the experimental value aμexp = (11~659~205.9 2.2) × 10-10. We confirm the observation by the CMD-3 authors that their σ(e+e- π+π-) measurement, when taken alone, implies the aμSM prediction consistent with the aμexp at 1σ level.