From 3d duality to 2d duality
Abstract
In this paper we discuss supersymmetric gauge theories and their IR dualities when they are compactified on a circle of radius , and when we take the limit in which . The limit depends on how the mass parameters are scaled as , and often vacua become infinitely distant in the limit, leading to a direct sum of different theories. For generic mass parameters, when we take the same limit on both sides of a duality, we obtain 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 theories are compactified on a circle. Using the valid reductions we reproduce many known IR dualities, giving further evidence for their validity, and we also find new dualities.
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}
}