Multiscalar B-L extension based on S4 flavor symmetry for neutrino mass and mixing

Abstract

A multiscalar and nonrenormalizable B-L extension of the standard model (SM) with S4 symmetry which successfully explains the recent observed neutrino oscillation data is proposed. The tiny neutrino masses and their hierarchies are generated via the type-I seesaw mechanism. The model reproduces the recent experiments of neutrino mixing angles and Dirac CP violating phase in which the atmospheric angle (θ23) and the reactor angle (θ13) get the best-fit values while the solar angle (θ12) and Dirac CP violating phase (δ ) belong to 3\, range of the best-fit value for normal hierarchy (NH). For inverted hierarchy (IH), θ13 gets the best-fit value and θ23 together with belongs to 1\, range while θ12 belongs to 3\, range of the best-fit value. The effective neutrino masses are predicted to be mee=6.81 \,\, meV for NH and mee=48.48\,\, meV for IH being in good agreement with the most recent experimental data.