English

Intersecting Surface Defects and Two-Dimensional CFT

High Energy Physics - Theory 2020-08-24 v3

Abstract

We initiate the study of intersecting surface operators/defects in four-dimensional quantum field theories (QFTs). We characterize these defects by coupled 4d/2d/0d theories constructed by coupling the degrees of freedom localized at a point and on intersecting surfaces in spacetime to each other and to the four-dimensional QFT. We construct supersymmetric intersecting surface defects preserving just two supercharges in N = 2 gauge theories. These defects are amenable to exact analysis by localization of the partition function of the underlying 4d/2d/0d QFT. We identify the 4d/2d/0d QFTs that describe intersecting surface operators in N = 2 gauge theories realized by intersecting M2-branes ending on N M5-branes wrapping a Riemann surface. We conjecture and provide evidence for an explicit equivalence between the squashed four-sphere partition function of these intersecting defects and correlation functions in Liouville/Toda CFT with the insertion of arbitrary degenerate vertex operators, which are labeled by representations of SU(N).

Keywords

Cite

@article{arxiv.1610.03501,
  title  = {Intersecting Surface Defects and Two-Dimensional CFT},
  author = {Jaume Gomis and Bruno Le Floch and Yiwen Pan and Wolfger Peelaers},
  journal= {arXiv preprint arXiv:1610.03501},
  year   = {2020}
}

Comments

74 pages, one-column version of the version published in 2017

R2 v1 2026-06-22T16:18:06.486Z