A novel realization of linear seesaw model in a non-invertible selection rule with the assistance of Z3 symmetry
Abstract
We propose a novel realization of linear seesaw model in a non-invertible selection rule with the assistance of Z3 symmetry. In our framework, Dirac mass matrices are generated at one-loop level, dynamically breaking the non-invertible symmetry while the symmetry is invariant under the tree-level. In addition to the active neutrino masses, the model exhibits rich and testable phenomenology such as non-unitarity bound, lepton flavor violations, lepton anomalous magnetic moment, and dark matter candidate. After describing our model, we carry out numerical analysis and show some results for our physical parameters.
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