Dynamical Supersymmetry Breaking with Gauged U(1)_R Symmetry

Abstract

We propose a simple model of dynamical supersymmetry breaking in the context of minimal supergravity with gauged U(1)_R symmetry. The model is based on the gauge group $SU(2) \times U(1)_R$ with three matters. Since the U(1)_R symmetry is gauged, the Fayet-Iliopoulos D-term appears due to the symmetry of supergravity. On the other hand, the superpotential generated dynamically by the SU(2) gauge dynamics leads to run away potential. Since the supersymmetric vacuum condition required by the D-term potential contradicts the one required by the superpotential, supersymmetry is broken. The supersymmetry breaking scale is controlled by the dynamical scale of the SU(2) gauge interaction. We can choose the parameters in our model for the cosmological constant to vanish. Our model is phenomenologically viable with the gravitino mass of order 10 TeV.