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arxiv: 2112.09139 · v2 · pith:XJL3KIJXnew · submitted 2021-12-16 · ✦ hep-ph · hep-ex· hep-lat

The muon g-2 anomaly confronts new physics in e^pm and μ^pm final states scattering

classification ✦ hep-ph hep-exhep-lat
keywords sigmakloedeterminationeventspredictionadditionalaffectbabar
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The 4.2$\sigma$ discrepancy between the standard model prediction for the muon anomalous magnetic moment $a_\mu$ and the experimental result is accompanied by other anomalies. A crucial input for the prediction is the hadronic vacuum polarization $a_\mu^{\rm HVP}$ inferred from $\sigma_{\rm had} =\sigma(e^+e^- \to\,$hadrons) data. However, the two most accurate determinations of $\sigma_{\rm had}$ from KLOE and BaBar disagree by almost 3$\,\sigma$. Additionally, the combined data-driven result disagrees with the most precise lattice determination of $a_{\mu}^{\rm HVP}$ by $2.1\,\sigma$. We show that all these discrepancies could be accounted for by a new boson produced resonantly around the KLOE centre of mass energy and decaying promptly yielding $e^+e^-$ and $\mu^+\mu^-$ pairs in the final states. This gives rise to three different effects: (i) the additional $e^+e^-$ events will affect the KLOE luminosity determination based on measurements of the Bhabha cross section, and in turn the inferred value of $\sigma_{\rm had}$; (ii) the additional $\mu^+\mu^-$ events will affect the determination of $\sigma_{\rm had}$ via the (luminosity independent) measurement of the ratio of $\pi^+\pi^-\gamma$ versus $\mu^+\mu^-\gamma$ events; (iii) loops involving the new boson would contribute directly to the prediction for $a_\mu$. We discuss in detail this possibility, and we present a simple model that can reconcile the KLOE and BaBar results for $\sigma_{\rm had}$, the data-driven and the lattice determinations of $a_\mu^{\rm HVP}$, the predicted and measured values of $a_\mu$, while complying with all phenomenological constraints.

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