SO(10) SUSY GUT for Fermion Masses : Lepton Flavor and CP Violation

Abstract

We discuss the results of a global 2 analysis of a simple SO(10) SUSY GUT with D3 family symmetry and low energy R parity. The model describes fermion mass matrices with 14 parameters and gives excellent fits to 20 observable masses and mixing angles in both quark and lepton sectors, giving 6 predictions. Bi-large neutrino mixing is obtained with hierarchical quark and lepton Yukawa matrices; thus avoiding the possibility of large lepton flavor violation. The model naturally predicts small 1-3 neutrino mixing, with θ13 0.05 - 0.06. In this paper we evaluate the predictions for the lepton flavor violating processes, μ e γ, τ μ γ and τ e γ and also the electric dipole moment of the electron, de, muon and tau, assuming universal squark and slepton masses, m16, and a universal soft SUSY breaking A parameter, A0, at the GUT scale. We find Br(μ e γ) is naturally below present bounds, but may be observable by MEG. Similarly, de is below present bounds; but is within the range of future experiments. We also give predictions for the light Higgs mass (using FeynHiggs). We find an upper bound given by mh ≤ 127 GeV, with an estimated 3 GeV theoretical uncertainty. Finally we present predictions for SUSY particle masses in the favored region of parameter space.

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