Fermion and Higgs masses and the AGUT model

Abstract

We present two rather differently based predictions for the quark and lepton spectrum: One provides a rather successful fit to the mass suppressions—the well known fermion mass hierarchy—interpreted as due to most mass terms needing to violate approximately conserved quantum numbers corresponding to the AGUT group SMG3×U(1)f. This is actually, under certain conditions, the maximal group transforming the known 45 Weyl components of the quark and leptons into each other. From the fit to the fermion spectrum, we get a picture of the series of Higgs fields causing the breakdown (presumably at the Planck scale) of this AGUT to the Standard Model and, thus, providing the small masses of all quarks and leptons except for the top quark. We separately predict the top quark mass to be 173±5 GeV and the Higgs mass to be 135±9 GeV, from the assumption that there be two degenerate minima in the effective potential for the Weinberg Salam Higgs field with the second one at the Planck field strength.