N=1 dynamics with T_N theory

TL;DR

This paper explores the dynamics of N=1 supersymmetric systems combining T_N superconformal theories, SU(N) gauge groups, and chiral multiplets, revealing phenomena like vacuum deformation and Coulomb branches with Seiberg-Witten curves.

Contribution

It provides a detailed analysis of N=1 dynamics involving T_N theories, including the chiral ring structure and emergent phenomena, extending understanding of strongly-coupled supersymmetric systems.

Findings

Demonstrates vacuum moduli space deformation

Shows emergence of dynamical superpotential

Identifies Coulomb branches with N=1 Seiberg-Witten curves

Abstract

We study the dynamics of N=1 supersymmetric systems consisting of the strongly-coupled superconformal theory T_N, SU(N) gauge groups, and fundamental chiral multiplets. We demonstrate that such systems exhibit familiar phenomena such as deformation of the vacuum moduli space, appearance of the dynamical superpotential, and Coulomb branches with N=1 Seiberg-Witten curves. The analysis requires a rather detailed knowledge of the chiral ring of the T_N theory, which will also be discussed at length.