$(g-2)_{e,\mu}$ and decays $e_b\to e_a\gamma$ in a $ \mbox{SU}(4)_L   \otimes \mbox{U}(1)_X$ model with inverse seesaw neutrinos

N. H. Thao; D. T. Binh; T. T. Hong; L. T. Hue; D. P. Khoi

arXiv:2302.07576·hep-ph·August 23, 2023

$(g-2)_{e,\mu}$ and decays $e_b\to e_a\gamma$ in a $ \mbox{SU}(4)_L \otimes \mbox{U}(1)_X$ model with inverse seesaw neutrinos

N. H. Thao, D. T. Binh, T. T. Hong, L. T. Hue, D. P. Khoi

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TL;DR

This paper demonstrates that a 3-4-1 gauge model with inverse seesaw neutrinos can account for the electron and muon g-2 anomalies, neutrino oscillations, and predicts observable lepton flavor violating decays.

Contribution

It introduces a 3-4-1 model with inverse seesaw neutrinos that explains g-2 anomalies and predicts detectable lepton flavor violation rates.

Findings

01

Explains recent g-2 anomalies for electrons and muons.

02

Predicts large lepton flavor violating decay rates.

03

Aligns with current experimental sensitivities.

Abstract

We will show that the 3-4-1 model with heavy right-handed neutrinos can explain the recent experimental data of $(g - 2)_{e, μ}$ anomalies of charged leptons and neutrino oscillations through the inverse seesaw mechanism. In addition, the model can predict large lepton flavor violating decay rates $μ \to e γ$ and $τ \to μ γ, e γ$ up to the recent experimental sensitivities.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Neutrino Physics Research · Quantum Chromodynamics and Particle Interactions