Cycles in dense digraphs

Maria Chudnovsky; Paul Seymour; Blair D. Sullivan

arXiv:math/0702147·math.CO·November 1, 2012·Comb.·3 cites

Cycles in dense digraphs

Maria Chudnovsky, Paul Seymour, Blair D. Sullivan

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Abstract

Let G be a digraph (without parallel edges) such that every directed cycle has length at least four; let $β (G)$ denote the size of the smallest subset X in E(G) such that $G \X$ has no directed cycles, and let $γ (G)$ be the number of unordered pairs {u,v} of vertices such that u,v are nonadjacent in G. It is easy to see that if $γ (G) = 0$ then $β (G) = 0$ ; what can we say about $β (G)$ if $γ (G)$ is bounded? We prove that in general $β (G)$ is at most $γ (G)$ . We conjecture that in fact $β (G)$ is at most $γ (G) /2$ (this would be best possible if true), and prove this conjecture in two special cases: 1. when V(G) is the union of two cliques, 2. when the vertices of G can be arranged in a circle such that if distinct u,v,w are in clockwise order and uw is a (directed) edge, then so are both uv and vw.

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TopicsAdvanced Graph Theory Research · Limits and Structures in Graph Theory · Graph theory and applications