The Fine-Tuning Problem of the Electroweak Symmetry Breaking Mechanism in Minimal SUSY Models
Abstract
We calculate the region of the MSSM parameter space (i.e. M1/2, m0, μ, …) compatible with a correct electroweak breaking and a realistic top-quark mass. To do so we have included all the one-loop corrections to the effective potential V1 and checked their importance in order to obtain consistent results. We also consider the fine-tuning problem due to the enormous dependence of MZ on ht (the top Yukawa coupling), which is substantially reduced when the one-loop effects are taken into account. We also explore the reliability of the so-called "standard" criterion to estimate the degree of fine-tuning. As a consequence, we obtain a new set of upper bounds on the MSSM parameters or, equivalently, on the supersymmetric masses perfectly consistent with the present experimental bounds.
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