Structure in sparse k-critical graphs

Abstract

Recently, Kostochka and Yancey proved that a conjecture of Ore is asymptotically true by showing that every k-critical graph satisfies |E(G)|≥(k2-1k-1)|V(G)|-k(k-3)2(k-1). They also characterized the class of graphs that attain this bound and showed that it is equivalent to the set of k-Ore graphs. We show that for any k≥33 there exists an >0 so that if G is a k-critical graph, then |E(G)|≥(k2-1k-1+k)|V(G)|-k(k-3)2(k-1)-(k-1) T(G), where T(G) is a measure of the number of disjoint Kk-1 and Kk-2 subgraphs in G. This also proves for k≥33 the following conjecture of Postle regarding the asymptotic density: For every k≥4 there exists an k>0 such that if G is a k-critical Kk-2-free graph, then |E(G)|≥ (k2-1k-1+k)|V(G)|-k(k-3)2(k-1). As a corollary, our result shows that the number of disjoint Kk-2 subgraphs in a k-Ore graph scales linearly with the number of vertices and, further, that the same is true for graphs whose number of edges is close to Kostochka and Yancey's bound.