中文

Edge-Transitive Homogeneous Factorisations of Complete Graphs

组合数学 2007-05-23 v1 群论

摘要

This thesis concerns the study of homogeneous factorisations of complete graphs with edge-transitive factors. A factorisation of a complete graph KnK_n is a partition of its edges into disjoint classes. Each class of edges in a factorisation of KnK_n corresponds to a spanning subgraph called a factor. If all the factors are isomorphic to one another, then a factorisation of KnK_n is called an isomorphic factorisation. A homogeneous factorisation of a complete graph is an isomorphic factorisation where there exists a group GG which permutes the factors transitively, and a normal subgroup MM of GG such that each factor is MM-vertex-transitive. If MM also acts edge-transitively on each factor, then a homogeneous factorisation of KnK_n is called an edge-transitive homogeneous factorisation. The aim of this thesis is to study edge-transitive homogeneous factorisations of KnK_n. We achieve a nearly complete explicit classification except for the case where GG is an affine 2-homogeneous group of the form ZpRG0Z_p^R \rtimes G_0, where G0ΓL(1,pR)G_0 \leq \Gamma L(1,p^R). In this case, we obtain necessary and sufficient arithmetic conditions on certain parameters for such factorisations to exist, and give a generic construction that specifies the homogeneous factorisation completely, given that the conditions on the parameters hold. Moreover, we give two constructions of infinite families of examples where we specify the parameters explicitly. In the second infinite family, the arc-transitive factors are generalisations of certain arc-transitive, self-complementary graphs constructed by Peisert in 2001.

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引用

@article{arxiv.math/0605253,
  title  = {Edge-Transitive Homogeneous Factorisations of Complete Graphs},
  author = {Tian Khoon Lim},
  journal= {arXiv preprint arXiv:math/0605253},
  year   = {2007}
}

备注

PhD Thesis (2004)