Deviations from Tribimaximal and Golden Ratio mixings under radiative corrections of neutrino masses and mixings

Abstract

The impact of renormalization group equations(RGEs) on neutrino masses and mixings at high energy scales in Minimal Supersymmetric Standard Model(MSSM) is studied using two different mixing patterns such as Tri-Bimaximal(TBM) mixing and Golden Ratio(GR) mixing in consistent with cosmological bound of the sum of three neutrino masses, Σ i|mi|. Magnifications of neutrino masses and mixing angles at low energy scale, are obtained by giving proper input masses, and mixing angles from TBM mixing matrix and GR mixing matrix at high energy scales. High energy scales, MR such as 1013GeV,1014GeV,1015GeV are employed in the analysis. The large solar(θ12) and atmospheric(θ23) neutrino mixing angles with zero reactor angle (θ13) from both TBM mixing matrix and GR mixing matrix at high scale, can magnify the reactor angle(θ13) at low energy scale in 3σ confidence level. Both cases of normal hierarchy(NH) and inverted hierarchy(IH) are addressed here. In normal hierarchical case, it is found that θ2351.1 and that in inverted hierarchical case is θ2339.1 in both mixing patterns. Possibility of θ23>45 or θ23<45 is observed at low scale. The analysis shows the validity of the two mixing patterns at high energy scale.

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