Mass Limit for Light Flavon with Residual Z3 Symmetry

Abstract

We present a modified Altarelli and Feruglio A4 model where an additional A4 singlet-prime flavon is introduced. In this model, non-zero θ 13 is given by this additional A4 singlet-prime flavon which breaks tri-bimaximal mixing. In the framework of the supersymmetry with U(1)R symmetry, we obtain vacuum expectation values (VEVs) and VEV alignments of flavons through driving fields. It is considered that flavon induces distinctive flavor violating process if flavon mass is light. Assuming mass of SUSY particles are sufficiently heavy so that the SUSY contributions can be negligible, we discuss the flavor violating Yukawa interaction through flavon exchange in the charged lepton sector. According to the potential analysis, the VEV of flavon breaks A4 down to Z3 in the charged lepton sector and relation among flavon masses is determined. Thanks for the residual Z3 symmetry, many lepton flavor violating decay modes are forbidden except for τ → μ μ e and τ → e e μ. A mass limit of the flavon from these three-body decay modes is 60~GeV taking into account the current experimental lower bounds at the Belle experiment. In our model, we predict a ratio of the branching ratios τ → μ μ e and τ → e e μ by using known charged lepton masses. We also find that the production cross section for the flavon can be O(1) fb. Thus the flavon would be found at the LHC run 2 by searching for 4-tau lepton signal.