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引用次数: 1
摘要
我们概述了有关弱衰变中异空间破缺修正的晶格计算现状,尤其侧重于轻伪极介子的轻子衰变。我们考察了目前已有的两种计算,特别强调了电磁有限体积修正的作用。考虑到与这种修正相关的巨大系统不确定性,我们提出了一种新方法来改进轻子衰变率和其他强子观测指标(如强子质量和强子真空极化对μ介子$g{-}2$的贡献)的有限体积比例。我们为 QED 作用引入了一个新的处方,称为 QED$_\mathrm{r}$,它有效地消除了 $\mathcal{O}(1/L^3)$ 的有限体积修正,从而将系统不确定性转移到了更高的阶。本文还讨论了这一行动的具体细节、红外改进的实际实施以及正在进行的数值测试。
Isospin-breaking corrections to weak decays: the current status and a new infrared improvement
We provide an overview of the current state of lattice calculations concerning isospin-breaking corrections in weak decays, focusing in particular on leptonic decays of light pseudoscalar mesons. We examine the two currently existing calculations, placing a particular emphasis on the role of electromagnetic finite-volume corrections. Given the large systematic uncertainty associated with such corrections, we propose a novel method to improve the finite-volume scaling of leptonic decay rates and other hadronic observables, like hadron masses and the hadronic vacuum polarization contribution to the muon $g{-}2$. We introduce a new prescription for the QED action, referred to as QED$_\mathrm{r}$, which effectively removes finite-volume corrections at $\mathcal{O}(1/L^3)$ and consequently shifts the systematic uncertainty to a higher order. The specifics of this action, the practical implementation of the infrared improvement, and the ongoing numerical tests are also discussed.
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