Schur Polynomials and The Yang-Baxter Equation

Ben Brubaker; Daniel Bump; Solomon Friedberg

doi:10.1007/s00220-011-1345-3

Schur Polynomials and The Yang-Baxter Equation

Ben Brubaker, Daniel Bump, Solomon Friedberg

Mathematics

Research output: Contribution to journal › Article › peer-review

54 Scopus citations

Abstract

We describe a parametrized Yang-Baxter equation with nonabelian parameter group. That is, we show that there is an injective map {mapping} R(g) from GL(2,ℂ) × GL(1,ℂ) to End (V ⊗ V), where V is a two-dimensional vector space such that if g,h ε G then R₁₂(g)R₁₃(gh) R₂₃(h) = R₂₃(h) R₁₃(gh)R₁₂(g). Here R_ij denotes R applied to the i, j components of V ⊗ V ⊗ V. The image of this map consists of matrices whose nonzero coefficients a₁, a₂, b₁, b₂, c₁, c₂ are the Boltzmann weights for the non-field-free six-vertex model, constrained to satisfy a₁a₂ + b₁b₂ - c₁c₂ = 0. This is the exact center of the disordered regime, and is contained within the free fermionic eight-vertex models of Fan and Wu. As an application, we show that with boundary conditions corresponding to integer partitions λ, the six-vertex model is exactly solvable and equal to a Schur polynomial s_λ times a deformation of the Weyl denominator. This generalizes and gives a new proof of results of Tokuyama and Hamel and King.

Original language	English (US)
Pages (from-to)	281-301
Number of pages	21
Journal	Communications in Mathematical Physics
Volume	308
Issue number	2
DOIs	https://doi.org/10.1007/s00220-011-1345-3
State	Published - Dec 2011

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title = "Schur Polynomials and The Yang-Baxter Equation",

abstract = "We describe a parametrized Yang-Baxter equation with nonabelian parameter group. That is, we show that there is an injective map {mapping} R(g) from GL(2,ℂ) × GL(1,ℂ) to End (V ⊗ V), where V is a two-dimensional vector space such that if g,h ε G then R12(g)R13(gh) R23(h) = R23(h) R13(gh)R12(g). Here Rij denotes R applied to the i, j components of V ⊗ V ⊗ V. The image of this map consists of matrices whose nonzero coefficients a1, a2, b1, b2, c1, c2 are the Boltzmann weights for the non-field-free six-vertex model, constrained to satisfy a1a2 + b1b2 - c1c2 = 0. This is the exact center of the disordered regime, and is contained within the free fermionic eight-vertex models of Fan and Wu. As an application, we show that with boundary conditions corresponding to integer partitions λ, the six-vertex model is exactly solvable and equal to a Schur polynomial sλ times a deformation of the Weyl denominator. This generalizes and gives a new proof of results of Tokuyama and Hamel and King.",

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AB - We describe a parametrized Yang-Baxter equation with nonabelian parameter group. That is, we show that there is an injective map {mapping} R(g) from GL(2,ℂ) × GL(1,ℂ) to End (V ⊗ V), where V is a two-dimensional vector space such that if g,h ε G then R12(g)R13(gh) R23(h) = R23(h) R13(gh)R12(g). Here Rij denotes R applied to the i, j components of V ⊗ V ⊗ V. The image of this map consists of matrices whose nonzero coefficients a1, a2, b1, b2, c1, c2 are the Boltzmann weights for the non-field-free six-vertex model, constrained to satisfy a1a2 + b1b2 - c1c2 = 0. This is the exact center of the disordered regime, and is contained within the free fermionic eight-vertex models of Fan and Wu. As an application, we show that with boundary conditions corresponding to integer partitions λ, the six-vertex model is exactly solvable and equal to a Schur polynomial sλ times a deformation of the Weyl denominator. This generalizes and gives a new proof of results of Tokuyama and Hamel and King.

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Schur Polynomials and The Yang-Baxter Equation

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