Neutrino mixing in Seesaw model

Abstract

We study the neutrino mixing matrix (the MNS matrix) in the seesaw model. By assuming a large mass hierarchy for the heavy right-handed Majorana mass, we show that, in the diagonal Majorana base, the MNS matrix is determined by a unitary matrix, S, which transforms the neutrino Yukawa matrix, y, into a triangular form, y. The mixing matrix of light leptons is VKM S *, where VKM VLe VL %VLe and VL diagonalize %the Yukawa matrices of charged leptons, %ye ye, and neutrinos, y y, %respectively, and S * VL S*. Large mixing may occur without fine tuning of the matrix elements of y even if the usual KM-like matrix VKM is given by VKM =1. This large mixing naturally may satisfy the experimental lower bound of the mixing implied by the atmospheric neutrino oscillation.

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