Fermion Mass and Mixing in a Low-Scale Seesaw Model based on the S4 Flavor Symmetry

Abstract

We construct a low-scale seesaw model to generate the masses of active neutrinos based on S4 flavor symmetry supplemented by the Z2 × Z3 × Z4 × Z14× U(1)L group, capable of reproducing the low energy Standard model (SM) fermion flavor data. The masses of the SM fermions and the fermionic mixings parameters are generated from a Froggatt-Nielsen mechanism after the spontaneous breaking of the S4× Z2 × Z3 × Z4 × Z14× U(1)L group. The obtained values for the physical observables of the quark and lepton sectors are in good agreement with the most recent experimental data. The leptonic Dirac CP violating phase CP is predicted to be 259.579 and the predictions for the absolute neutrino masses in the model can also saturate the recent constraints.