1. Rank $Q$ E-String on Spheres with Flux
- Author
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Shlomo S. Razamat, Evyatar Sabag, Matteo Sacchi, Chiung Hwang, Hwang, C, Razamat, S, Sabag, E, and Sacchi, M
- Subjects
Physics ,High Energy Physics - Theory ,Weyl group ,Compactification (physics) ,010308 nuclear & particles physics ,Group (mathematics) ,QC1-999 ,General Physics and Astronomy ,Duality (optimization) ,FOS: Physical sciences ,Global symmetry ,01 natural sciences ,String (physics) ,Symmetry (physics) ,symbols.namesake ,High Energy Physics - Theory (hep-th) ,0103 physical sciences ,symbols ,Gauge theory ,010306 general physics ,Mathematical physics ,Supersymmetric gauge theories and dualities - Abstract
We consider compactifications of rank $Q$ E-string theory on a genus zero surface with no punctures but with flux for various subgroups of the $\text{E}_8\times \text{SU}(2)$ global symmetry group of the six dimensional theory. We first construct a simple Wess-Zumino model in four dimensions corresponding to the compactification on a sphere with one puncture and a particular value of flux, the cap model. Using this theory and theories corresponding to two punctured spheres with flux, one can obtain a large number of models corresponding to spheres with a variety of fluxes. These models exhibit interesting IR enhancements of global symmetry as well as duality properties. As an example we will show that constructing sphere models associated to specific fluxes related by an action of the Weyl group of $\text{E}_8$ leads to the S-confinement duality of the $\text{USp}(2Q)$ gauge theory with six fundamentals and a traceless antisymmetric field. Finally, we show that the theories we discuss possess an $\text{SU}(2)_{\text{ISO}}$ symmetry in four dimensions that can be naturally identified with the isometry of the two-sphere. We give evidence in favor of this identification by computing the `t Hooft anomalies of the $\text{SU}(2)_{\text{ISO}}$ in 4d and comparing them with the predicted anomalies from 6d., 57 pages, 6 figures; v2: a few minor changes, published in SciPost Phys
- Published
- 2021