N=1 Deformations and RG Flows of N=2 SCFTs, Part II: Non-principal deformations

Abstract

We continue to investigate the N=1 deformations of four-dimensional N=2 superconformal field theories (SCFTs) labeled by a nilpotent element of the flavor symmetry. This triggers a renormalization group (RG) flow to an N=1 SCFT. We systematically analyze all possible deformations of this type for certain classes of N=2 SCFTs: conformal SQCDs, generalized Argyres-Douglas theories and the E6 SCFT. We find a number of examples where the amount of supersymmetry gets enhanced to N=2 at the end point of the RG flow. Most notably, we find that the SU(N) and Sp(N) conformal SQCDs can be deformed to flow to the Argyres-Douglas (AD) theories of type (A1, D2N-1) and (A1, D2N) respectively. This RG flow therefore allows us to compute the full superconformal index of the (A1,DN) class of AD theories. Moreover, we find an infrared duality between N=1 theories where the fixed point is described by an N=2 AD theory. We observe that the classes of examples that exhibit supersymmetry enhancement saturate certain bounds for the central charges implied by the associated two-dimensional chiral algebra.