Abstract
Multi-Higgs systems are combined with bosonic technicolor to construct a viable model of TeV physics. In such models, there is potentially a flavor problem in either the supersymmetric or the Higgs sector. However, the naturally larger mass scale for supersymmetry breaking and Higgs masses, which is a salient feature of bosonic technicolor, allows one to resolve the GUT-hierarchy problem without large flavor violation. With a judicious choice of the Higgs system, hierarchies of family masses and mixing angles of the right order of magnitude are achieved without resorting to small Yukawa couplings. Some of these masses and mixing angles are generated by radiative corrections. At energies below 100 GeV the standard model is reproduced, whereas at TeV energies a rich phenomenology of supersymmetric states and techni-hadrons is predicted. We present precise formulas to describe many aspects of the model and its phenomenology at tree and one-loop levels.
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