The lightest Higgs mass in supersymmetric models with extra dimensions
Abstract
In the four-dimensional supersymmetric standard model extended with gauge singlets the lightest Higgs boson mass, MH, has an important contribution proportional to the squared of the superpotential coupling λ of singlets to Higgs fields, λ SH1· H2. The requirement of perturbativity up to the unification scale yields an upper bound on MH 140 GeV. In extensions to theories with (longitudinal) extra dimensions at the TeV where such coupling exists and massive Kaluza-Klein states fall into N=2 representations, if either of the Higgs or singlet fields live in the bulk of the extra dimensions, the β-function of λ is suppressed due to the absence of anomalous dimension of hypermultiplets to leading order. This implies a slower running of λ and an enhancement of its low energy value. The MH upper bound increases to values MH 165 GeV.
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