Cyclic subsets in regular Dirac graphs

Abstract

In 1996, in his last paper, Erdos asked the following question that he formulated together with Faudree: is there a positive c such that any (n+1)-regular graph G on 2n vertices contains at least c 22n distinct vertex-subsets S that are cyclic, meaning that there is a cycle in G using precisely the vertices in S. We answer this question in the affirmative in a strong form by proving the following exact result: if n is sufficiently large and G minimises the number of cyclic subsets then G is obtained from the complete bipartite graph Kn-1,n+1 by adding a 2-factor (a spanning collection of vertex-disjoint cycles) within the part of size n+1. In particular, for n large, this implies that the optimal c in the problem is precisely 1/2.

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