An SO(10)XS4 Model of Quark-Lepton Complementarity

Abstract

The present observations of Cabbibo angle and solar mixing angle satisfy the empirical relation called Quark-Lepton Complementarity(QLC), namely θ12l π/4-θC. It suggests the existence of correlation between quarks and leptons which is supported by the idea of grand unification. We propose a specific ansatz for the structure of Yukawa matrices in SO(10) unified theory which leads to such relation if neutrinos get masses through type-II seesaw mechanism. Viability of this ansatz is discussed through detailed analysis of fermion masses and mixing angles all of which can be explained in a model which uses three Higgs fields transforming as 10 and one transforming as 126 representations under SO(10). It is shown that the proposed ansatz can be derived from an extended model based on the two pairs of 16-dimensional vector-like fermions and an S4 flavor symmetry. The model leads to the lepton mixing matrix that is dominantly bimaximal with O(θC) corrections related to quark mixing. A generic prediction of the model is the reactor angle θ13l θC/2 which is close to its present experimental upper bound.