Threshold effects and radiative electroweak symmetry breaking in SU(5) extensions of the MSSM

Abstract

We make a complete analysis of radiative symmetry breaking in the MSSM and its SU(5) extensions including low- and high-energy threshold effects in the framework of the two-loop renormalization group. In particular, we consider minimal SU(5), the ``missing-doublet'' SU(5), a Peccei-Quinn invariant version of SU(5) as well as a version with light adjoint remnants. We derive permitted ranges for the parameters of these models in relation to predicted αs and MG values within the present experimental accuracy. The parameter regions allowed under the constraints of radiative symmetry breaking, perturbativity and proton stability, include the experimentally designated domain for αs. In the case of the minimal SU(5), the values of αs obtained are somewhat large in comparison with the experimental average. The ``missing-doublet'' SU(5), generally, predicts smaller values of αs. In both versions of the ``missing-doublet'', the high energy threshold effects on αs operate in the opposite direction than in the case of the minimal model, leading to small values. In the case of the Peccei-Quinn version however the presence of an extra intermediate scale allows to achieve an excellent agreement with the experimental αs values. Finally, the last considered version, with light remnants, exhibits unification of couplings at string scale at the expense however of rather large αs values.

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