Metaplectic Ice for Cartan Type C

Abstract

We use techniques from statistical mechanics to provide new formulas for Whittaker coefficients of metaplectic Eisenstein series on odd orthogonal groups, matching Friedberg and Zhang. We study a particular variation/generalization of the six-vertex model of Cartan type C having "domain-wall boundary conditions" dependent on a given integer partition λ of length at most r, where r is a fixed positive integer. More precisely, we examine a planar, non-nested, U-turn model whose partition functions Zλ are a generalization of a deformation of characters of the symplectic group Sp(2r, C). Special cases appeared in: Kuperberg; Hamel and King; Brubaker, Bump, Chinta, and Gunnells; Ivanov. Our main result is that these new families of "metaplectic" models are solvable---i.e., they possess Yang--Baxter equations. We use this to derive two types of functional equations involving Zλ corresponding to the two root lengths for simple reflections of the symplectic Weyl group. It is widely believed that the local component of metaplectic Eisenstein series is a metaplectic Whittaker function, though this is subtle owing to the lack of uniqueness of Whittaker models and only verified in type A by McNamara. Thus, we also give evidence for the conjecture that Zλ is a spherical Whittaker function by showing that Zλ satisfies the same identities under our solution to the Yang--Baxter equation as the metaplectic Whittaker function under intertwining operators on the unramified principal series of an n-fold metaplectic cover of SO(2r + 1), for n odd.