Supercurrents and (Partial) Supersymmetry in Adjoint QCD2 and Its Generalizations

Abstract

1+1-dimensional SU(N) gauge theory coupled to an adjoint Majorana fermion, also known as adjoint QCD2, has the surprising feature that at fermion mass g2 N2 π it exhibits supersymmetry. In this paper, we obtain a deeper insight into how the supersymmetry works by constructing the gauge invariant, Lorentz covariant supercurrent jμA. Its conservation relies crucially on the presence of a quantum anomaly. We generalize this construction to a class of models where, in addition to an adjoint Majorana fermion of an appropriate mass, the gauge theory is coupled to some collection of massless fermions (SU(N) may be replaced by a more general gauge group). In general, these models have a supersymmetric massive sector and a non-supersymmetric CFT sector [arXiv:2202.04017], but there are cases in which both sectors are supersymmetric. An example of such a gapless, fully supersymmetric model is SU(N) gauge theory coupled to three adjoint Majorana fermions, of which two are massless and the third has mass 3g2 N2π.