Constraining active-sterile neutrino mixing via lepton flavor violating decays of mesons

AAPPS Bulletin Pub Date : 2022-08-01 DOI:10.1007/s43673-022-00051-6

Shiyong Hu, Sam Ming-Yin Wong, Fanrong Xu

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Abstract

As a hypothetic particle, a sterile neutrino can exist in types of new physics models. In this work by investigating flavor violating semileptonic and leptonic decays of K,D, and B mesons induced by the GeV scale sterile neutrino, we explore its allowed regions in parameter space. Analytically, we derive branching fractions of semileptonic decay \(M^{+}_{h}\to M_{l}^{+}\ell _{1}^{+}\ell _{2}^{-}\) and leptonic decay \(M^{0}\to \ell _{1}^{-}\ell _{2}^{+}\), including the contribution from a new box diagram contribution due to the massive sterile neutrino. Imposing its mass ranges, we numerically analyze the active-sterile neutrino mixings in corresponding regions. We find that when the sterile neutrino mass is located in between pion and kaon mass, K⁺→π⁺e^±μ^∓ gives the strongest constraint while B⁺→π⁺e^±μ^∓ provides the dominated constraint when its mass in between of kaon and B meson. If the sterile neutrino is even heavier than Bmesons, the LHCb \(B^{0}_{s}\to \mu ^{\pm } e^{\mp }\) results gives the strongest constraint.

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通过介子的轻子味道违反衰变来约束主动-轻子中微子混合

作为一种假想粒子，不育中微子可以存在于各种新物理模型中。在这项工作中，我们通过研究由 GeV 尺度的不育中微子诱导的 K、D 和 B 介子的违反味道的半轻子和轻子衰变，探索了它在参数空间中的允许区域。通过分析，我们得出了半轻子衰变（M^{+}_{h}\to M_{l}^{+}\ell _{1}^{+}\ell _{2}^{-}）和轻子衰变（M^{0}\to \ell _{1}^{-}\ell _{2}^{+}）的分支分数，包括来自大质量无常中微子的新盒图贡献。根据其质量范围，我们对相应区域的有源中微子-无源中微子混合进行了数值分析。我们发现，当不育中微子的质量介于先锋和卡昂质量之间时，K+→π+e±μ∓给出了最强的约束，而当其质量介于卡昂和B介子之间时，B+→π+e±μ∓提供了主要的约束。如果不育中微子比B介子还重，那么LHCb的（B^{0}_{s}\to \mu ^{\pm } e^{\mp }\ ）结果会给出最强的约束。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

AAPPS Bulletin

CiteScore

8.20

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0.00%

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