Theta-function parametrization and fusion for 3D integrable Boltzmann weights

G. Von Gehlen; S. Pakuliak; S. Sergeev

doi:10.1088/0305-4470/37/4/005

Theta-function parametrization and fusion for 3D integrable Boltzmann weights

G. Von Gehlen^*, S. Pakuliak, S. Sergeev

^*Corresponding author for this work

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

3 Citations (Scopus)

Abstract

We report progress in constructing Boltzmann weights for integrable three-dimensional lattice spin models. We show that a large class of vertex solutions to the modified tetrahedron equation (MTE) can be conveniently parametrized in terms of Nth roots of theta functions on the Jacobian of a compact algebraic curve. Fay's identity guarantees the Fermat relations and the classical equations of motion for the parameters determining the Boltzmann weights. Our parametrization allows us to write a simple formula for fused Boltzmann weights fractur R sign which describe the partition function of an arbitrary open box and which also obey the modified tetrahedron equation. Imposing periodic boundary conditions we observe that the fractur R sign satisfy the normal tetrahedron equation. The scheme described contains the Zamolodchikov-Baxter-Bazhanov model and the chessboard model as special cases.

Original language	English
Pages (from-to)	1159-1179
Number of pages	21
Journal	Journal of Physics A: Mathematical and General
Volume	37
Issue number	4
DOIs	https://doi.org/10.1088/0305-4470/37/4/005
Publication status	Published - 30 Jan 2004

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title = "Theta-function parametrization and fusion for 3D integrable Boltzmann weights",

abstract = "We report progress in constructing Boltzmann weights for integrable three-dimensional lattice spin models. We show that a large class of vertex solutions to the modified tetrahedron equation (MTE) can be conveniently parametrized in terms of Nth roots of theta functions on the Jacobian of a compact algebraic curve. Fay's identity guarantees the Fermat relations and the classical equations of motion for the parameters determining the Boltzmann weights. Our parametrization allows us to write a simple formula for fused Boltzmann weights fractur R sign which describe the partition function of an arbitrary open box and which also obey the modified tetrahedron equation. Imposing periodic boundary conditions we observe that the fractur R sign satisfy the normal tetrahedron equation. The scheme described contains the Zamolodchikov-Baxter-Bazhanov model and the chessboard model as special cases.",

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T1 - Theta-function parametrization and fusion for 3D integrable Boltzmann weights

AU - Von Gehlen, G.

AU - Pakuliak, S.

AU - Sergeev, S.

PY - 2004/1/30

Y1 - 2004/1/30

N2 - We report progress in constructing Boltzmann weights for integrable three-dimensional lattice spin models. We show that a large class of vertex solutions to the modified tetrahedron equation (MTE) can be conveniently parametrized in terms of Nth roots of theta functions on the Jacobian of a compact algebraic curve. Fay's identity guarantees the Fermat relations and the classical equations of motion for the parameters determining the Boltzmann weights. Our parametrization allows us to write a simple formula for fused Boltzmann weights fractur R sign which describe the partition function of an arbitrary open box and which also obey the modified tetrahedron equation. Imposing periodic boundary conditions we observe that the fractur R sign satisfy the normal tetrahedron equation. The scheme described contains the Zamolodchikov-Baxter-Bazhanov model and the chessboard model as special cases.

AB - We report progress in constructing Boltzmann weights for integrable three-dimensional lattice spin models. We show that a large class of vertex solutions to the modified tetrahedron equation (MTE) can be conveniently parametrized in terms of Nth roots of theta functions on the Jacobian of a compact algebraic curve. Fay's identity guarantees the Fermat relations and the classical equations of motion for the parameters determining the Boltzmann weights. Our parametrization allows us to write a simple formula for fused Boltzmann weights fractur R sign which describe the partition function of an arbitrary open box and which also obey the modified tetrahedron equation. Imposing periodic boundary conditions we observe that the fractur R sign satisfy the normal tetrahedron equation. The scheme described contains the Zamolodchikov-Baxter-Bazhanov model and the chessboard model as special cases.

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JO - Journal of Physics A: Mathematical and General

JF - Journal of Physics A: Mathematical and General

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Theta-function parametrization and fusion for 3D integrable Boltzmann weights

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