Linking the special orthogonal algebra so4 and the tetrahedron algebra

Authors

John Vincent S. Morales, De La Salle University, Manila

College

College of Science

Department/Unit

Mathematics and Statistics Department

Document Type

Article

Source Title

Linear Algebra and Its Applications

Volume

637

First Page

212

Last Page

239

Publication Date

2022

Abstract

In 2007, B. Hartwig and Terwilliger found a presentation for the three-point sl2 loop algebra in terms of generators and relations. To obtain this presentation, they defined a Lie algebra by generators and relations and established an isomorphism from to three-point sl2 loop algebra. Essentially, has six generators which can be naturally identified with the six edges of the tetrahedron. In fact, each face of the tetrahedron has three surrounding edges which generate a subalgebra of that is isomorphic to sl2. It is interesting to know whether a direct sum of finitely many copies of sl2 (e.g., special orthogonal algebra so₄) captures the bracket relations of the generators of . Here, we show that there exists a Lie algebra homomorphism φ : x → so₄ which can be extended to a homomorphism φ : x → L where L is a direct sum of finitely many copies of sl2. We construct a finite-dimensional so₄-module which is viewed as a -module via the homomorphism φ. We show how this so4-module is related to Krawtchouk polynomials. This paper is inspired by and is an extension of the work of Nomura and Terwilliger (2012) [19].

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Digitial Object Identifier (DOI)

https://doi.org/10.1016/j.laa.2021.12.009

Recommended Citation

Morales, J. S. (2022). Linking the special orthogonal algebra so4 and the tetrahedron algebra. Linear Algebra and Its Applications, 637, 212-239. https://doi.org/https://doi.org/10.1016/j.laa.2021.12.009

Disciplines

Algebra

Keywords

Combinatorial designs and configurations; Algebras, Linear; Polynomials

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