Journal of High Energy Physics (Jul 2017)

Modular and duality properties of surface operators in N = 2 ⋆ $$ \mathcal{N}={2}^{\star } $$ gauge theories

  • S. K. Ashok,
  • M. Billò,
  • E. Dell’Aquila,
  • M. Frau,
  • R. R. John,
  • A. Lerda

DOI
https://doi.org/10.1007/JHEP07(2017)068
Journal volume & issue
Vol. 2017, no. 7
pp. 1 – 51

Abstract

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Abstract We calculate the instanton partition function of the four-dimensional N = 2 ⋆ $$ \mathcal{N}={2}^{\star } $$ SU(N) gauge theory in the presence of a generic surface operator, using equivariant localization. By analyzing the constraints that arise from S-duality, we show that the effective twisted superpotential, which governs the infrared dynamics of the two-dimensional theory on the surface operator, satisfies a modular anomaly equation. Exploiting the localization results, we solve this equation in terms of elliptic and quasi-modular forms which resum all non-perturbative corrections. We also show that our results, derived for monodromy defects in the four-dimensional theory, match the effective twisted superpotential describing the infrared properties of certain two-dimensional sigma models coupled either to pure N = 2 $$ \mathcal{N}=2 $$ or to N = 2 ⋆ $$ \mathcal{N}={2}^{\star } $$ gauge theories.

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