English

Quiver Polymerisation

High Energy Physics - Theory 2024-12-13 v3

Abstract

Two new diagrammatic techniques on 3d  N=43d\;\mathcal N=4 quiver gauge theories, termed chain and cyclic quiver polymerisation are introduced. These gauge a diagonal SU/U(k)\mathrm{SU}/\mathrm{U}(k) subgroup of the Coulomb branch global symmetry of a quiver (or pair of quivers) with multiple legs. The action on the Coulomb branch is that of a SU/U(k)\mathrm{SU}/\mathrm{U}(k) hyper-K\"ahler quotient. The polymerisation techniques build and generalise known composition methods from class S\mathcal S. Polymerisation is used to generate a wide range of magnetic quivers from various physical contexts. These include polymerisation constructions for Kronheimer-Nakajima quivers, which generalise the ADHM construction for the moduli space of k  SU(N)k\;\mathrm{SU}(N) instantons on C2\mathbb C^2 to A-type singularities. Also a polymerisation construction of the magnetic quiver for the 6d  N=(1,0)6d\;\mathcal N=(1,0) coming from two 12\frac{1}{2} M5 branes probing an E6E_6 Klein singularity. We find a method of extending magnetic quivers for Class S\mathcal S theories to cure the incomplete Higgsing that arises when gluing punctures into the loops associated with higher genus theories. Other novel constructions include a unitary magnetic quiver for the closure of a height four nilpotent orbit of SO(7)\mathrm{SO}(7). We explore the relationships between the Coulomb and Higgs branches of quivers under polymerisation.

Keywords

Cite

@article{arxiv.2406.11561,
  title  = {Quiver Polymerisation},
  author = {Amihay Hanany and Rudolph Kalveks and Guhesh Kumaran},
  journal= {arXiv preprint arXiv:2406.11561},
  year   = {2024}
}

Comments

Typos corrected

R2 v1 2026-06-28T17:08:41.084Z