A Family of GLr Multiplicative Higgs Bundles on Rational Base

Abstract

In this paper we study a restricted family of holomorphic symplectic leaves in the Poisson-Lie group GLr(KP1x) with rational quadratic Sklyanin brackets induced by a one-form with a single quadratic pole at ∞ ∈ P1. The restriction of the family is that the matrix elements in the defining representation are linear functions of x. We study how the symplectic leaves in this family are obtained by the fusion of certain fundamental symplectic leaves. These symplectic leaves arise as minimal examples of (i) moduli spaces of multiplicative Higgs bundles on P1 with prescribed singularities, (ii) moduli spaces of U(r) monopoles on R2 × S1 with Dirac singularities, (iii) Coulomb branches of the moduli space of vacua of 4d N=2 supersymmetric Ar-1 quiver gauge theories compactified on a circle. While degree 1 symplectic leaves regular at ∞ ∈ P1 (Coulomb branches of the superconformal quiver gauge theories) are isomorphic to co-adjoint orbits in glr and their Darboux parametrization and quantization is well known, the case irregular at infinity (asymptotically free quiver gauge theories) is novel. We also explicitly quantize the algebra of functions on these moduli spaces by presenting the corresponding solutions to the quantum Yang-Baxter equation valued in Heisenberg algebra (free field realization).