English

From 3d duality to 2d duality

High Energy Physics - Theory 2018-10-04 v3

Abstract

In this paper we discuss 3d3d N=2{\cal N}=2 supersymmetric gauge theories and their IR dualities when they are compactified on a circle of radius rr, and when we take the 2d2d limit in which r0r\to 0. The 2d2d limit depends on how the mass parameters are scaled as r0r\to 0, and often vacua become infinitely distant in the 2d2d limit, leading to a direct sum of different 2d2d theories. For generic mass parameters, when we take the same limit on both sides of a duality, we obtain 2d2d dualities (between gauge theories and/or Landau-Ginzburg theories) that pass all the usual tests. However, when there are non-compact branches the discussion is subtle because the metric on the moduli space, which is not controlled by supersymmetry, plays an important role in the low-energy dynamics after compactification. Generally speaking, for IR dualities of gauge theories, we conjecture that dualities involving non-compact Higgs branches survive. On the other hand when there is a non-compact Coulomb branch on at least one side of the duality, the duality fails already when the 3d3d theories are compactified on a circle. Using the valid reductions we reproduce many known 2d2d IR dualities, giving further evidence for their validity, and we also find new 2d2d dualities.

Keywords

Cite

@article{arxiv.1710.00926,
  title  = {From 3d duality to 2d duality},
  author = {Ofer Aharony and Shlomo S. Razamat and Brian Willett},
  journal= {arXiv preprint arXiv:1710.00926},
  year   = {2018}
}
R2 v1 2026-06-22T22:01:45.874Z