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Bibliographic Details
Main Author: Takahashi, Ryo
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.07612
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author Takahashi, Ryo
author_facet Takahashi, Ryo
contents We establish two expansions of the Potts model partition function of a graph. One is along the deletions of a graph, a rewritten formula given in Biggs (1977). The other is along the contractions of a graph. Then, we specialize the partition function to the chromatic or flow polynomial by the Möbius inversion formula, and prove two known equations of the two polynomials. One expresses the chromatic polynomial as a weighted sum of flow polynomials of deletions, the other expresses the flow polynomial as a weighted sum of chromatic polynomials of contractions. The proof of the former by Biggs formula is due to Bychkov et al. (2021). The two expressions are considered to be dual in the sense of their forms, and transfer to each other with plane duality. This relation also holds in our expansions of the Potts model partition function. We clarify this duality by using matroid duality. Partition functions can be extended to matroids, and the two expansions can also be extended. The two expansions transfer to each other with matroid duality, so in addition to an elementary combinatorial proof of the two, we give another proof by the "duality" relation between them.
format Preprint
id arxiv_https___arxiv_org_abs_2405_07612
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Expansions of the Potts model partition function along deletions and contractions
Takahashi, Ryo
Combinatorics
05C31
We establish two expansions of the Potts model partition function of a graph. One is along the deletions of a graph, a rewritten formula given in Biggs (1977). The other is along the contractions of a graph. Then, we specialize the partition function to the chromatic or flow polynomial by the Möbius inversion formula, and prove two known equations of the two polynomials. One expresses the chromatic polynomial as a weighted sum of flow polynomials of deletions, the other expresses the flow polynomial as a weighted sum of chromatic polynomials of contractions. The proof of the former by Biggs formula is due to Bychkov et al. (2021). The two expressions are considered to be dual in the sense of their forms, and transfer to each other with plane duality. This relation also holds in our expansions of the Potts model partition function. We clarify this duality by using matroid duality. Partition functions can be extended to matroids, and the two expansions can also be extended. The two expansions transfer to each other with matroid duality, so in addition to an elementary combinatorial proof of the two, we give another proof by the "duality" relation between them.
title Expansions of the Potts model partition function along deletions and contractions
topic Combinatorics
05C31
url https://arxiv.org/abs/2405.07612