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تسجيل مستخدم جديدAbsolutely split metacyclic groups and weak metacirculants
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Let $m,n,r$ be positive integers, and let $G=langle arangle: langle brangle cong mathbb{Z}_n: mathbb{Z}_m$ be a split metacyclic group such that $b^{-1}ab=a^r$. We say that $G$ is {em absolutely split with respect to $langle arangle$} provided that for any $xin G$, if $langle xranglecaplangle arangle=1$, then there exists $yin G$ such that $xinlangle yrangle$ and $G=langle arangle: langle yrangle$. In this paper, we give a sufficient and necessary condition for the group $G$ being absolutely split. This generalizes a result of Sanming Zhou and the second author in [arXiv: 1611.06264v1]. We also use this result to investigate the relationship between metacirculants and weak metacirculants. Metacirculants were introduced by Alspach and Parsons in $1982$ and have been a rich source of various topics since then. As a generalization of this classes of graphs, Maruv siv c and v Sparl in 2008 posed the so called weak metacirculants. A graph is called a {em weak metacirculant} if it has a vertex-transitive metacyclic automorphism group. In this paper, it is proved that a weak metacirculant of $2$-power order is a metacirculant if and only if it has a vertex-transitive split metacyclic automorphism group. This provides a partial answer to an open question in the literature.
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Metacirculants are a rich resource of many families of interesting graphs, and weak metacirculants are generalizations of them. A graph is called a {em split weak metacirculant} if it has a vertex-transitive split metacyclic automorphism group. In tw
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