Nuclear-level effective theory of $μ\rightarrow e$ conversion: Inelastic process

W. C. Haxton, Evan Rule
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Abstract

Mu2e and COMET will search for electrons produced via the neutrinoless conversion of stopped muons bound in 1s atomic orbits of $^{27}$Al, improving existing limits on charged lepton flavor violation (CLFV) by roughly four orders of magnitude. Conventionally, $\mu\rightarrow e$ conversion experiments are optimized to detect electrons originating from transitions where the nucleus remains in the ground state, thereby maximizing the energy of the outgoing electron. Clearly, detection of a positive signal in forthcoming experiments would stimulate additional work $-$ including subsequent conversion experiments using complementary nuclear targets $-$ to further constrain the new physics responsible for CLFV. Here we argue that additional information can be extracted without the need for additional experiments, by considering inelastic conversion in $^{27}$Al. Transitions to low-lying nuclear excited states can modify the near-endpoint spectrum of conversion electrons, with the ratio of the elastic and inelastic responses being sensitive to the underlying CLFV operator. We extend the nuclear effective theory of $\mu\rightarrow e$ conversion to the inelastic case, which adds five new response functions to the six that arise for the elastic process. We evaluate these nuclear response functions in $^{27}$Al and calculate the resulting conversion-electron signal, taking into account the resolution anticipated in Mu2e/COMET. We find that $^{27}$Al is an excellent target choice from the perspective of the new information that can be obtained from inelastic $\mu \rightarrow e$ conversion.
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核级有效理论的 $μ\rightarrow e$ 转换:非弹性过程
Mu2e和COMET将搜索束缚在$^{27}$Al的1s原子轨道上的停止μ介子通过中微子转换产生的电子,从而将现有的带电轻子味道违反(CLFV)限制提高大约四个数量级。传统上,$\mu\rightarrow e$ 转换实验的优化目的是探测来自核保持基态的跃迁的电子,从而最大限度地提高流出电子的能量。显然,在即将进行的实验中探测到一个正信号将激发更多的工作$-$,包括使用互补核目标进行后续的转换实验$-$,以进一步约束导致CLFV的新物理学。在这里,我们认为,通过考虑$^{27}$Al中的弹性转换,不需要额外的实验就可以提取额外的信息。向低洼核激发态的转变可以改变转换电子的近端点谱,而弹性和非弹性响应的比值对基本的CLFV算子很敏感。我们将 $\mu\rightarrow e$ 转换的核有效理论扩展到非弹性情况,这就在弹性过程的六个响应函数的基础上增加了五个新的响应函数。我们在$^{27}$Al中评估了这些核响应函数,并计算了由此产生的转换电子信号,同时考虑到了Mu2e/COMET的预期分辨率。我们发现,从非弹性 $\mu\rightarrow e$ 转换所能获得的新信息的角度来看,$^{27}$Al 是一个极好的目标选择。
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