Dihedral Families of Quarks, Leptons and Higgs Bosons
Abstract
We consider finite groups of small order for family symmetry. It is found that the binary dihedral group Q6, along with the assumption that the Higgs sector is of type II, predicts mass matrix of a nearest neighbor interaction type for quarks and leptons. We present a supersymmetric model based on Q6 with spontaneously induced CP phases. The quark sector contains 8 real parameters with one independent phase to describe the quark masses and their mixing. Predictions in the |Vub|-bareta, |Vub|-sin 2 beta(phi1) and |Vub|-|Vtd/Vts| planes are given. The lepton sector contains also 9 parameters. A normal as well as an inverted spectrum of neutrino masses is possible, and we compute Ve3. We find that |Ve3|2 > 10-4 in the case of a normal spectrum, and |Ve3|2 >8 10-4 in the case of an inverted spectrum. It is also found that Q6 symmetry forbids all Baryon number violating terms of d=4, and the contributions to EDMs from the A terms vanish in this model.
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