Coloring Graphs with Forbidden Minors

Abstract

Hadwiger's conjecture from 1943 states that for every integer t1, every graph either can be t-colored or has a subgraph that can be contracted to the complete graph on t+1 vertices. As pointed out by Paul Seymour in his recent survey on Hadwiger's conjecture, proving that graphs with no K7 minor are 6-colorable is the first case of Hadwiger's conjecture that is still open. It is not known yet whether graphs with no K7 minor are 7-colorable. Using a Kempe-chain argument along with the fact that an induced path on three vertices is dominating in a graph with independence number two, we first give a very short and computer-free proof of a recent result of Albar and Goncalves and generalize it to the next step by showing that every graph with no Kt minor is (2t-6)-colorable, where t∈\7,8,9\. We then prove that graphs with no K8- minor are 9-colorable and graphs with no K8= minor are 8-colorable. Finally we prove that if Mader's bound for the extremal function for Kp minors is true, then every graph with no Kp minor is (2t-6)-colorable for all p5. This implies our first result. We believe that the Kempe-chain method we have developed in this paper is of independent interest.