Centro de Excelencia Severo Ochoa
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IFT Seminar Room/Red Room
The hadronic vacuum polarization (HVP) contribution to the muon g−2 is the crucial quantity to resolve whether new physics is present or not in the comparison between the Standard Model (SM) prediction and experimental measurements at Fermilab. It is commonly and historically determined via dispersion relations using a vast catalogue of experimentally measured, low-energy e+e− → hadrons cross section data as input. These dispersive estimates result in a SM prediction that exhibits a muon g−2 discrepancy of more than 5σ when compared to experiment. However, recent lattice QCD evaluations of the HVP and a new hadronic cross section measurement from the CMD-3 experiment favor a no-new-physics scenario and, therefore, exhibit a common tension with the previous e+e− → hadrons data. I this talk, I will explore the current and future implications of these two scenarios on other observables that are also sensitive to the HVP contributions in the hope that they may provide independent tests of the current tensions observed in the muon g−2.
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