Abstract
In order to address this question, we consider a simple renormalisable and gauge invariant model in which the $Z'$ only has couplings to the electron and muon and their associated neutrinos, arising from mixing with a heavy vector-like fourth family of leptons. Within this model we discuss the contributions to the electron and muon anomalous magnetic moments from $Z'$ exchange, subject to the constraints from $\mu \rightarrow e \gamma$ and neutrino trident production. Using analytic and numerical arguments, we find that such a $Z'$ model can account for either the electron or the muon $g-2$ anomalies, but not both, while remaining consistent with the experimental constraints from $\mu \rightarrow e \gamma$ and neutrino trident production.
Highlights
The Standard Model (SM) provides an excellent explanation of all experimental data, apart from neutrino mass and lepton mixing
It is possible to consider a model in which the Z0 only has couplings to the electron and muon and their associated neutrinos, arising from mixing with a vectorlike fourth family of leptons, thereby eliminating the quark couplings and allowing us to focus on the connection between charged lepton universality violation (CLUV), charged lepton flavor violation (CLFV) and the electron and muon g-2 anomalies
III, we show how it is possible to switch on the couplings of the Z0 to the electron and muon and their associated neutrinos, thereby eliminating all unnecessary couplings and allowing us to focus on the connection between CLUV, CLFV and the electron and muon g-2 anomalies
Summary
The Standard Model (SM) provides an excellent explanation of all experimental data, apart from neutrino mass and lepton mixing. It is possible to consider a model in which the Z0 only has couplings to the electron and muon and their associated neutrinos, arising from mixing with a vectorlike fourth family of leptons, thereby eliminating the quark couplings and allowing us to focus on the connection between CLUV, CLFV and the electron and muon g-2 anomalies. Such a model allows charged lepton universality violation (CLUV) at tree-level with CLFV and contributions to the electron and muon magnetic moments at loop level Within such a model we attempt to explain the anomalous magnetic moments of both the muon and electron within the relevant parameter space of the model, while satisfying the constraints of BRðμ → eγÞ and neutrino trident production.
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