Abstract
We evaluate the Coulomb branch Hilbert series of mirrors of three dimensional Sicilian theories, which arise from compactifying the $6d$ $(2,0)$ theory with symmetry $G$ on a circle times a Riemann surface with punctures. We obtain our result by gluing together the Hilbert series for building blocks $T_{\mathbf{\rho}}(G)$, where $\mathbf{\rho}$ is a certain partition related to the dual group of $G$, which we evaluated in a previous paper. The result is expressed in terms of a class of symmetric functions, the Hall-Littlewood polynomials. As expected from mirror symmetry, our results agree at genus zero with the superconformal index prediction for the Higgs branch Hilbert series of the Sicilian theories and extend it to higher genus. In the $A_1$ case at genus zero, we also evaluate the Coulomb branch Hilbert series of the Sicilian theory itself, showing that it only depends on the number of external legs.
Highlights
A general formula for computing the generating function (Hilbert series) for the chiral ring associated with the Coulomb branch of three dimensional N = 4 gauge theories has been recently proposed [1]
We evaluate the Coulomb branch Hilbert series of mirrors of three dimensional Sicilian theories, which arise from compactifying the 6d (2, 0) theory with symmetry G on a circle times a Riemann surface with punctures
As expected from mirror symmetry, our results agree at genus zero with the superconformal index prediction for the Higgs branch Hilbert series of the Sicilian theories and extend it to higher genus
Summary
Our gluing formula extends to punctured Riemann surfaces of higher genus, by incorporating adjoint hypermultiplets in the mirror theory [6] For such Riemann surfaces the Hall-Littlewood index of the 4d non-Lagrangian theory differs from the Higgs branch Hilbert series, as discussed in [4]. These are 3d N = 4 Lagrangian theories associated to a graph with tri-valent vertices, where a finite line denotes an SU(2) gauge group, an infinite line denotes an SU(2) global symmetry, and a vertex denotes 8 half-hypermultiplets in the tri-fundamental representation of SU(2). Let us summarize important information on the monopole and Hall-Littlewood formulae for Coulomb branch Hilbert series
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