Rank $Q$ E-string on a torus with flux
Abstract
We discuss compactifications of rank E-string theory on a torus with fluxes for abelian subgroups of the global symmetry of the SCFT. We argue that the theories corresponding to such tori are built from a simple model we denote as . This model has a variety of non trivial properties. In particular the global symmetry is with one of the two symmetries emerging in the IR as an enhancement of an symmetry of the UV Lagrangian. The model after dimensional reduction to and a subsequent Coulomb branch flow is closely related to the familiar theory, the model residing on an S-duality domain wall of SYM. Gluing the models by gauging the symmetries with proper admixtures of chiral superfields gives rise to systematic constructions of many examples of theories with emergent IR symmetries. We support our claims by various checks involving computations of anomalies and supersymmetric partition functions. Many of the needed identities satisfied by the supersymmetric indices follow directly from recent mathematical results obtained by E. Rains.
Cite
@article{arxiv.1908.03278,
title = {Rank $Q$ E-string on a torus with flux},
author = {Sara Pasquetti and Shlomo S. Razamat and Matteo Sacchi and Gabi Zafrir},
journal= {arXiv preprint arXiv:1908.03278},
year = {2020}
}
Comments
54 pages, 21 figures