Supersymmetric gauge theories with decoupled operators and chiral ring stability

Abstract

We propose a general way to complete supersymmetric theories with operators below the unitarity bound, adding gauge-singlet fields which enforce the decoupling of such operators. This makes it possible to perform all usual computations, and to compactify on a circle. We concentrate on a duality between an N=1 SU(2) gauge theory and the N=2 A3 Argyres-Douglas [1,2], mapping the moduli space and chiral ring of the completed N=1 theory to those of the A3 model. We reduce the completed gauge theory to 3d, finding a 3d duality with N=4 SQED with two flavors. The naive dimensional reduction is instead N=2 SQED. Crucial is a concept of chiral ring stability, which modifies the superpotential and allows for a 3d emergent global symmetry.