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On the Minimum Number of Edges in Triangle-Free 5-Critical Graphs

Published 2016-02-09Version 1

Kostochka and Yancey proved that every 5-critical graph G satisfies: |E(G)|>= (9/4)|V(G)| - 5/4. A construction of Ore gives an infinite family of graphs meeting this bound. We prove that there exists e,d > 0 such that if G is a 5-critical graph, then |E(G)| >= (9/4 + e)|V(G)|- 5/4 - dT(G), where T(G) is the maximum number of vertex-disjoint cliques of size three or four where cliques of size four have twice the weight of a clique of size three. As a corollary, a triangle-free 5-critical graph G satisfies: |E(G)|>=(9/4 + e)|V(G)| - 5/4.

Comments: 22 pages

Categories: math.CO

Subjects: 05C15

Keywords: minimum number, triangle-free, maximum number, vertex-disjoint cliques, construction

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arXiv:1602.03098 [math.CO]Abstract References Reviews Resources

On the Minimum Number of Edges in Triangle-Free 5-Critical Graphs

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On the Minimum Number of Edges in Triangle-Free 5-Critical Graphs

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arXiv:1602.03098 [math.CO]Abstract References Reviews Resources