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| Main Authors: | , |
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| Format: | Preprint |
| Published: |
2025
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2504.12070 |
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Table of Contents:
- In neutrino physics, a class of models with local or global family symmetries may be invoked, and then a flavon field is needed to realize the full neutrino mixing. This flavon may shed light on the long-standing muon $g-2$ puzzle. In this work, we explore this idea in the $({B-L})_{13}$ gauge extension to the standard model (SM), in which realistic neutrino mixing requires both a SM singlet flavon $s$ and a vector-like lepton (VLL) doublet. The dominant coupling between the flavon and leptons is in the manner of lepton-flavor-violation (LFV). Through an analytical analysis of the SM lepton-VLL mixing matrix, we find that the parameter space of the $s\barμe$-type flavon to explain the muon $g-2$ has been completely excluded by the specific LFV process, muonium-antimuonium oscillation. But the $s\barμτ$-type flavon still has the opportunity; however, it confronts the strong constraint from $τ\to μ$ conservation and, in particular, the lepton flavor universality test of $Z$ boson decay, which arises due to our way to realize the LFV flavon. The surviving flavon is highly predictable, with mass in the narrow window $m_τ\lesssim m_s\lesssim 1.5~ m_τ$ and LFV coupling strength $\sim 10^{-2}$. Besides, it leaves a TeV scale VLL with a multi-lepton signature at the LHC.