Deviations from μ-τ symmetry using (27) group on neutrino masses and mixings

Abstract

Implication of neutrino mass model based on (27) discrete flavor symmetry, on parameters of neutrino oscillations, CP violation and effective neutrino masses is studied using type-I seesaw mechanism. The Standard Model particle content is extended by adding two additional Higgs doublets, three right-handed neutrinos and two scalar triplets under (27) symmetry predicting diagonal charged lepton mass matrix. This can generate the desired deviation from μ - τ symmetry. The resulting neutrino oscillation parameters are well agreed with the latest global fit oscillation data. The sum of the three absolute neutrino mass eigenvalues, Σi|mi| (i=1,2,3) is found to be consistent with that of the value given by latest Planck cosmological data, Σi|mi|<0.12 eV. The model further predicts effective neutrino masses for neutrinoless double beta decay, 4.15 meV ≤ mee≤ 30.6 meV, tritium beta decay, 8.4 meV ≤ mβ≤ 30.5 meV, Jarlskog invariant, JCP= 0.022 for CP violation, baryon asymmetry YB=1.15 × 10-10 for normal hierarchical case; and also 49.5 meV ≤ mee≤ 51.7 meV, 49.5 meV ≤ mβ≤ 51.4 meV, JCP= 0.022, YB=1.12× 10-10 for inverted hierarchical case respectively.