Extremal monomial property of q-characters and polynomiality of the X-series

Abstract

The character of every irreducible finite-dimensional representation of a simple Lie algebra has the highest weight property. The invariance of the character under the action of the Weyl group W implies that there is a similar "extremal weight property" for every weight obtained by applying an element of W to the highest weight. In this paper we conjecture an analogous "extremal monomial property" of the q-characters of simple finite-dimensional modules over the quantum affine algebras, using the braid group action on q-characters defined by Chari. In the case of the identity element of W, this is the highest monomial property of q-characters proved in arXiv:math/9911112. Here we prove it for simple reflections. Somewhat surprisingly, the extremal monomial property for each w in W turns out to be equivalent to polynomiality of the "X-series" corresponding to w, which we introduce in this paper. We show that these X-series are equal to certain limits of the generalized Baxter operators for all w in W. Thus, we find a new bridge between q-characters and the spectra of XXZ-type quantum integrable models associated to quantum affine algebras. This leads us to conjecture polynomiality of all generalized Baxter operators, extending the results of arXiv:1308.3444.

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