Observable Lepton Flavor Symmetry at LHC
Ernest Ma (UC Riverside)
TL;DR
This paper proposes a lepton flavor symmetry model based on the T(7) group and gauged B-L, predicting observable Z' gauge boson decays at the LHC into distinctive tau and mu/e final states.
Contribution
It introduces a novel lepton flavor symmetry model with a residual Z(3) symmetry, enabling potential detection of new gauge bosons at the LHC.
Findings
Predicts Z' decay into tau and mu/e pairs with distinctive signatures
Provides a framework for observable lepton flavor symmetry at collider experiments
Suggests new scalar bosons from Z' decay channels
Abstract
I discuss a model of lepton flavor symmetry based on the non-Abelian finite group T(7) and the gauging of B-L, which has a residual Z(3) symmetry in the charged-lepton Yukawa sector, allowing it to be observable at the Large Hadron Collider (LHC) from the decay of the new Z' gauge boson of this model to a pair of scalar bosons which the unusual highly distinguishable final states tau(-)tau(-)mu(+)e(+).
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