Nima Doroud, Jaume Gomis, Bruno Le Floch, Sungjay Lee
Published 2012-06-12, updated 2016-11-12Version 4
We compute exactly the partition function of two dimensional N=(2,2) gauge theories on S^2 and show that it admits two dual descriptions: either as an integral over the Coulomb branch or as a sum over vortex and anti-vortex excitations on the Higgs branches of the theory. We further demonstrate that correlation functions in two dimensional Liouville/Toda CFT compute the S^2 partition function for a class of N=(2,2) gauge theories, thereby uncovering novel modular properties in two dimensional gauge theories. Some of these gauge theories flow in the infrared to Calabi-Yau sigma models - such as the conifold - and the topology changing flop transition is realized as crossing symmetry in Liouville/Toda CFT. Evidence for Seiberg duality in two dimensions is exhibited by demonstrating that the partition function of conjectured Seiberg dual pairs are the same.
Comments: 78 pages, LaTeX; v2: small corrections and references added; v3: JHEP version, discussing factorization further in new appendix F; v4: sign corrected for non simply-connected gauge group
Journal: JHEP 1305 (2013) 093
Exact Results in Noncommutative ${\cal N}=2$ Supersymmetric Gauge Theories
Exact Results In Two-Dimensional (2,2) Supersymmetric Gauge Theories With Boundary
Duality in N=1 Supersymmetric gauge theories and recent developments
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