Induced subgraphs of graphs with large chromatic number. VII. Gyárfás' complementation conjecture

Alex Scott, Paul Seymour

Published 2017-01-23Version 1

A class of graphs is $\chi$-bounded if there is a function $f$ such that $\chi(G)\le f(\omega(G))$ for every induced subgraph $G$ of every graph in the class, where $\chi,\omega$ denote the chromatic number and clique number of $G$ respectively. In 1987, Gy\'arf\'as conjectured that for every $c$, if $\mathcal{C}$ is a class of graphs such that $\chi(G)\le \omega(G)+c$ for every induced subgraph $G$ of every graph in the class, then the class of complements of members of $\mathcal{C}$ is $\chi$-bounded. We prove this conjecture. Indeed, more generally, a class of graphs is $\chi$-bounded if it has the property that no graph in the class has $c+1$ odd holes, pairwise disjoint and with no edges between them. The main tool is a lemma that if $C$ is a shortest odd hole in a graph, and $X$ is the set of vertices with at least five neighbours in $V(C)$, then there is a three-vertex set that dominates $X$.