Electroweak Symmetry Breaking by Strong Supersymmetric Dynamics at the TeV Scale

Physics – High Energy Physics – High Energy Physics - Phenomenology

Scientific paper

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17 pages, no figures, LaTeX

Scientific paper

10.1103/PhysRevD.63.075001

We construct models in which electroweak symmetry is spontaneously broken by supersymmetric strong dynamics at the TeV scale. The order parameter is a composite of scalars, and the longitudinal components of the W and Z are strongly-coupled bound states of scalars. The usual phenomenological problems of dynamical electroweak symmetry breaking are absent: the sign of the S parameter unconstrained in strongly interacting SUSY theories, and fermion masses are generated without flavor-changing neutral currents or large corrections to the rho parameter. The lightest neutral Higgs scalar can be heavier than M_Z without radiative corrections from standard-model fields. All the mass scales in the model can be naturally related in low-scale models of supersymmetry breaking. The mu problem can also be solved naturally, and the model can incorporate perturbative unification of standard-model gauge couplings with intermediate thresholds.

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