English

Solving the n-color ice model

Mathematical Physics 2025-08-01 v3 Combinatorics math.MP Representation Theory

Abstract

Given an arbitrary choice of two sets of nonzero Boltzmann weights for nn-color lattice models, we provide explicit algebraic conditions on these Boltzmann weights which guarantee a solution (i.e., a third set of weights) to the Yang-Baxter equation. Furthermore we provide an explicit one-dimensional parametrization of all solutions in this case. These nn-color lattice models are so named because their admissible vertices have adjacent edges labeled by one of nn colors with additional restrictions. The two-colored case specializes to the six-vertex model, in which case our results recover the familiar quadric condition of Baxter for solvability. The general nn-color case includes important solutions to the Yang-Baxter equation like the evaluation modules for the quantum affine Lie algebra Uq(sl^n)U_q(\hat{\mathfrak{sl}}_n). Finally, we demonstrate the invariance of this class of solutions under natural transformations, including those associated with Drinfeld twisting.

Keywords

Cite

@article{arxiv.2212.06404,
  title  = {Solving the n-color ice model},
  author = {Patrick Addona and Ethan Bockenhauer and Ben Brubaker and Michael Cauthorn and Cianan Conefrey-Shinozaki and David Donze and William Dudarov and Jessamyn Dukes and Andrew Hardt and Cindy Li and Jigang Li and Yanli Liu and Neelima Puthanveetil and Zain Qudsi and Jordan Simons and Joseph Sullivan and Autumn Young},
  journal= {arXiv preprint arXiv:2212.06404},
  year   = {2025}
}

Comments

39 pages, 8 figures

R2 v1 2026-06-28T07:32:02.140Z