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Matching theory and Barnette's conjecture

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Title
Matching theory and Barnette's conjecture
Author(s)
Gorsky, Maximilian; Steiner, Raphael; Sebastian Wiederrecht
Publication Date
2023-02
Journal
Discrete Mathematics, v.346, no.2
Publisher
Elsevier BV
Abstract
© 2022 Elsevier B.V.Barnette's Conjecture claims that all cubic, 3-connected, planar, bipartite graphs are Hamiltonian. We give a translation of this conjecture into the matching-theoretic setting. This allows us to relax the requirement of planarity to give the equivalent conjecture that all cubic, 3-connected, Pfaffian, bipartite graphs are Hamiltonian. A graph, other than the path of length three, is a brace if it is bipartite and any two disjoint edges are part of a perfect matching. Our perspective allows us to observe that Barnette's Conjecture can be reduced to cubic, planar braces. We show a similar reduction to braces for cubic, 3-connected, bipartite graphs regarding four stronger versions of Hamiltonicity. Note that in these cases we do not need planarity. As a practical application of these results, we provide some supplements to a generation procedure for cubic, 3-connected, planar, bipartite graphs discovered by Holton et al. (1985) [14]. These allow us to check whether a graph we generated is a brace.
URI
https://pr.ibs.re.kr/handle/8788114/13232
DOI
10.1016/j.disc.2022.113249
ISSN
0012-365X
Appears in Collections:
Pioneer Research Center for Mathematical and Computational Sciences(수리 및 계산과학 연구단) > 1. Journal Papers (저널논문)
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