Phenomenological Constraints on Patterns of Supersymmetry Breaking
Abstract
Specific models of supersymmetry breaking predict relations between the trilinear and bilinear soft supersymmetry breaking parameters A0 and B0 at the input scale. In such models, the value of tan beta can be calculated as a function of the scalar masses m0 and the gaugino masses m1/2, which we assume to be universal. The experimental constraints on sparticle and Higgs masses, b to s gamma decay and the cold dark matter density OmegaCDM h2 can then be used to constrain tan beta in such specific models of supersymmetry breaking. In the simplest Polonyi model with A0 = (3 - sqrt3)m0 = B0 + m0, we find 11 < tan beta < 20 (tan beta ~ 4.15) for mu > 0 (mu < 0). We also discuss other models with A0 = B0 + m0, finding that only the range -1.9 < A0/m0 < 2.5 is allowed for mu > 0, and the range 1.25 < A0/m0 < 4.8 for mu < 0. In these models, we find no solutions in the rapid-annihilation `funnels' or in the `focus-point' region. We also discuss the allowed range of tan beta in the no-scale model with A0 = B0 = 0. In all these models, most of the allowed regions are in the chi - stau1 coannihilation `tail'.
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