Canonical double covers of generalized Petersen graphs, and double generalized Petersen graphs

The canonical double cover \(\D(\Gamma)\) of a graph \(\Gamma\) is the direct product of \(\Gamma\) and \(K_2\). If \(\Aut(\D(\Gamma))\cong\Aut(\Gamma)\times\ZZ_2\) then \(\Gamma\) is called stable; otherwise \(\Gamma\) is called unstable. An unstable graph is said to be nontrivially unstable if it...

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Bibliographic Details
Published in:arXiv.org 2020-10
Main Authors: Yan-Li, Qin, Xia, Binzhou, Zhou, Sanming
Format: Article
Language:English
Subjects:
Apexes
Automorphisms
Integers
Online Access:Get full text
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Summary:The canonical double cover \(\D(\Gamma)\) of a graph \(\Gamma\) is the direct product of \(\Gamma\) and \(K_2\). If \(\Aut(\D(\Gamma))\cong\Aut(\Gamma)\times\ZZ_2\) then \(\Gamma\) is called stable; otherwise \(\Gamma\) is called unstable. An unstable graph is said to be nontrivially unstable if it is connected, non-bipartite and no two vertices have the same neighborhood. In 2008 Wilson conjectured that, if the generalized Petersen graph \(\GP(n,k)\) is nontrivially unstable, then both \(n\) and \(k\) are even, and either \(n/2\) is odd and \(k^2\equiv\pm 1 \pmod{n/2}\), or \(n=4k\). In this note we prove that this conjecture is true. At the same time we determine all possible isomorphisms among the generalized Petersen graphs, the canonical double covers of the generalized Petersen graphs, and the double generalized Petersen graphs. Based on these we completely determine the full automorphism group of the canonical double cover of \(\GP(n,k)\) for any pair of integers \(n, k\) with \(1 \leqslant k < n/2\).
ISSN:2331-8422
DOI:10.48550/arxiv.1807.07228