Diagonal reflection symmetries, four-zero texture, and trimaximal mixing with predicted θ13 in an A4 symmeric model

Abstract

In this paper, we impose a magic symmetry on the neutrino mass matrix m with universal four-zero texture and diagonal reflection symmetries. Due to the magic symmetry, the MNS matrix has trimaximal mixing inevitably. Since the lepton sector has only six free parameters, physical observables of leptons are all determined from the charged leptons masses mei, the neutrino mass differences mi12, and the mixing angle θ23. This scheme predicts θ13 = 0.149, that is almost equal to the latest best fit, as a function of the lepton masses me, μ and the mass differences mi12. Moreover, even if the mass matrix has perturbations that break the magic symmetry, the prediction of θ13 is retained with good accuracy for the four-zero texture with diagonal reflection symmetries.