Upper Bounds on the Lightest Higgs Boson Mass in General Supersymmetric Standard Models

Abstract

In a general supersymmetric standard model there is an upper bound mh on the tree level mass of the CP=+1 lightest Higgs boson which depends on the electroweak scale, β and the gauge and Yukawa couplings of the theory. When radiative corrections are included, the allowed region in the (mh,mt) plane depends on the scale , below which the theory remains perturbative, and the supersymmetry breaking scale s, that we fix to 1\ TeV. In the minimal model with =1016\ GeV: mh<130\ GeV and mt<185\ GeV. In non-minimal models with an arbitrary number of gauge singlets and =1016\ GeV: mh<145\ GeV and mt<185\ GeV. We also consider supersymmetric standard models with arbitrary Higgs sectors. For models whose couplings saturate the scale =1016\ GeV we find mh<155\ GeV and mt<190\ GeV. As one pushes the saturation scale down to s, the bounds on mh and mt increase. For instance, in models with =10\ TeV, the upper bounds for mh and mt go to 415\ GeV and 385\ GeV, respectively.

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