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Supersymmetry breaking induced by radiative corrections

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arxiv 1202.2845 v2 pith:I6PRJPOT submitted 2012-02-13 hep-ph

Supersymmetry breaking induced by radiative corrections

classification hep-ph
keywords gaugebreakingsupersymmetrycorrectionsfieldinducedmassespotential
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We show that simultaneous gauge and supersymmetry breaking can be induced by radiative corrections, a la Coleman-Weinberg. When a certain correlation among the superpotential parameters is present, a local supersymmetry-breaking minimum is found in the effective potential of a gauge non-singlet field, in a region where the tree-level potential is almost flat. Supersymmetry breaking is then transmitted to the MSSM through gauge and chiral messenger loops, thus avoiding the suppression of gaugino masses characteristic of direct gauge mediation models. The use of a single field ensures that no dangerous tachyonic scalar masses are generated at the one-loop level. We illustrate this mechanism with an explicit example based on an SU(5) model with a single adjoint. An interesting feature of the scenario is that the GUT scale is increased with respect to standard unification, thus allowing for a larger colour Higgs triplet mass, as preferred by the experimental lower bound on the proton lifetime.

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