Phenomenological Study of Lepton Flavor Violation in Z Boson Decays with Constrained MSSM Extended by Type-II Seesaw Model
Abstract
In this work, we study the lepton flavor violation (LFV) of Z boson decays in the framework of the constrained minimal supersymmetric standard model (CMSSM) extended by the type-II seesaw model. The branching ratios of Z li lj decays are calculated in this model. Here, li and lj are different flavor charged leptons. After fitting to the experimental mass limits of the neutrino and supersymmetric particles, we have found that the branching ratios for LFV decays of Z boson are in the order of 6 × 10-10 for e μ channel and of 1 × 10-9 for both τ μ and τ e decay channels. Considering recent experimental constraints on li→ lj γ decays, the branching ratios for LFV decays of Z boson get an additional suppression of 10-8 for e μ channel and of 10-3 for both τ μ and τ e decay channels. The branching ratios theoretical predictions are several orders below the recent experimental limits for both scenarios, which give a very low probability to observe the LFV decays of Z boson in the future experiments.
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