Lepton Flavor Violation of Z Gauge Boson Decays in Supersymmetric Type-III Seesaw Model
Abstract
In this study, we investigate the lepton flavor violation (LFV) of Z gauge boson decaying into two different flavor charged leptons Z→ li lj (Z→ τ μ, Z→ τ e and Z→ μ e). This work is performed in the framework of the constrained minimal supersymmetric standard model (CMSSM) which is extended by the type-III seesaw mechanism. By considering constraints from the current experimental bounds on neutrino and supersymmetric particle masses, we calculate the branching ratios of the LFV of Z boson decays. The numerical results are found to be 1.30 × 10-9 for both the τ μ and τ e decay channels and 6.40 × 10-10 for the μ e channel. After applying the constraints from the experimental bounds on the radiative two body decays li→ lj γ, the branching ratios of the LFV of Z boson decays get an additional suppression of 10-3 for the τ μ and τ e decay channels and 10-8 for the μ e channel. Our prediction of the branching ratios is several orders of magnitude below the current experimental bounds.
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