Model Independent Tests of the Hadronic Vacuum Polarization Contribution to the Muon $g$$-$$2$

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-08-02 DOI:arxiv-2408.01123

Luca Di Luzio, Alexander Keshavarzi, Antonio Masiero, Paride Paradisi

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Abstract

The hadronic vacuum polarization (HVP) contributions to the muon $g$$-$$2$ are 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. They are commonly and historically determined via dispersion relations using a vast catalogue of experimentally measured, low-energy $e^+e^-\to \,\rm{hadrons}$ cross section data as input. These dispersive estimates result in a SM prediction that exhibits a muon $g$$-$$2$ discrepancy of more than $5\sigma$ 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 $e^+e^-\to \,\rm{hadrons}$ data. This study explores 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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强子真空极化对μ介子$g$$$-$$2$贡献的模型独立测试

强子真空极化（HVP）对μ介子$g$$$-$$2$的贡献是标准模型（SM）预言与费米实验室实验测量结果比较中解决是否存在新物理的关键量。它们是利用大量实验测量的低能$e^+e^-\to \,\rm{hadrons}$横截面数据作为输入，通常和历史上确定的vi色散关系。这些散射估算得出的SM预测结果与实验结果相比，μ介子的$g$$-$2$差异超过5\sigma$。然而，最近格子QCD对HVP的评估和来自CMD-3实验的一个新的强子截面测量都倾向于一种无新物理情景，因此，与之前的$e^+e^-\to \,\rm{hadrons}$数据表现出一种共同的紧张关系。本研究探讨了这两种方案对其他观测指标的当前和未来影响，这些观测指标也对HVP贡献很敏感，希望它们能对目前在μ介子$g$$-$2$中观测到的紧张关系提供独立的检验。

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arXiv - PHYS - High Energy Physics - Lattice

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