Semisymmetric \(Z_{p}\)-covers of the \(C20\) graph

Semisymmetric \(Z_{p}\)-covers of the \(C20\) graph

A graph \(X\) is said to be \(G\)-semisymmetric if it is regular and there exists a subgroup \(G\) of \(A := \operatorname{Aut}(X)\) acting transitively on its edge set but not on its vertex set. In the case of \(G = A\), we call \(X\) a semisymmetric graph. Finding elementary abelian covering proje...

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Bibliographic Details
Date:2021
Main Authors: Talebi, A. A., Mehdipoor, N.
Format: Article
Language:English
Published: Lugansk National Taras Shevchenko University 2021
Subjects:
invariant subspaces
homology group
$C20$ graph
semisymmetric graphs
regular covering
lifting automorphisms
05C25
20b25
Online Access:https://admjournal.luguniv.edu.ua/index.php/adm/article/view/252
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Journal Title:Algebra and Discrete Mathematics

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Algebra and Discrete Mathematics
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Summary:A graph \(X\) is said to be \(G\)-semisymmetric if it is regular and there exists a subgroup \(G\) of \(A := \operatorname{Aut}(X)\) acting transitively on its edge set but not on its vertex set. In the case of \(G = A\), we call \(X\) a semisymmetric graph. Finding elementary abelian covering projections can be grasped combinatorially via a linear representation of automorphisms acting on the first homology group of the graph. The method essentially reduces to finding invariant subspaces of matrix groups over prime fields. In this study, by applying concept linear algebra, we classify the connected semisymmetric \(z_{p}\)-covers of the \(C20\) graph.

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