Lepton Flavor Physics in the flipped 3-3-1-1 Model: Non-Universality and Violation

Abstract

We investigate the flavor violation (FV) of Z decays to leptons at tree level and flavor conserving Z decays to leptons in the frame work of the flipped SU(3)C SU(3)L U(1)X U(1)N,(F3311) model. In addition, we analyze the processes li→ lj γ and the leptonic three-body decay. Using the experimental bounds on these decays we set the constraint on φ which represents the mixing between Z-Z' boson. The most stringent limits arises from μ → e γ decay where φ O(10-3). The leptonic three-body decay set lower bound on the mass of the new neural gauge boson mZ' ≥ 3.2TeV. Using the LUX-ZEPLIN (LZ) experiment data we set bounds to the mass of the dark matter candidates. Subsequently, we investigate the lepton non-universality in B decays within the F3311 model by calculating the generic one-loop contribution to the process ui→ dj eb a in the unitary gauge as well as numerical evaluating the branching ratio RD, RD(*),R(Xc). We demonstrate that the F3311 model can address the 3.3 σ discrepancies between Standard Model and experimental data. To reaffirm our results, we also analyze the d u transitions and s u transitions. These two transitions also give consistent result with experiment data. Combine all experiment dat a we obtain the operating region for the mass of the model specifically mE ∈ [6.5, 9 ]TeV, mQ ∈ [6,11]TeV and the dark matter candidate m ∈ [1.5,2 ]TeV.

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