Dynamical Determination of the Top Quark and Higgs Masses and Fermion Masses in the Anti-Grand Unification Model
Abstract
The multiple point criticality principle is applied to the pure Standard Model (SM), with a desert up to the Planck scale. We are thereby led to impose the constraint that the effective Higgs potential should have two degenerate minima, one of which should have a vacuum expectation value of order unity in Planck units. In this way we predict a top quark mass of 173 5 GeV and a Higgs particle mass of 135 9 GeV. The quark and lepton mass matrices are considered in the anti-grand unified extension of the SM based on the gauge group SMG3 U(1)f; this group contains three copies of the SM gauge group SMG, one for each generation, and an abelian flavour group U(1)f. The 9 quark and lepton masses and 3 mixing angles are fitted using 3 free parameters, with the overall mass scale set by the electroweak interaction. It is pointed out that the same results can be obtained in an anomaly free SMG U(1)3 model.
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