A three-parameter model for the neutrino mass matrix
Abstract
Using the type-II seesaw mechanism with three Higgs doublets phialpha (alpha = e, mu, tau) and four Higgs triplets, we build a model for lepton mixing based on a 384-element horizontal symmetry group, generated by the permutation group S3 and by six Z2 transformations. The charged-lepton mass matrix is diagonal; the symmetries of the model would require all the three masses malpha to be equal, but different vacuum expectation values of the phialpha allow the malpha to split. The number of parameters in the Majorana neutrino mass matrix mnu depends on two options: full breaking of the permutation group S3, or leaving a mu--tau interchange symmetry intact; and hard or spontaneous violation of CP. We discuss in detail the case with the minimal number of three parameters, wherein mnu is real, symmetric under mu--tau interchange, and has equal diagonal elements. In that case, CP is conserved in lepton mixing, atmospheric neutrino mixing is maximal, and theta13 = 0; moreover, the type of neutrino mass spectrum and the absolute neutrino mass scale are sensitive functions of the solar mixing angle.
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