Stability for the Erdos-Rothschild problem

Abstract

Given a sequence k := (k1,…,ks) of natural numbers and a graph G, let F(G;k) denote the number of colourings of the edges of G with colours 1,…,s such that, for every c ∈ \1,…,s\, the edges of colour c contain no clique of order kc. Write F(n;k) to denote the maximum of F(G;k) over all graphs G on n vertices. This problem was first considered by Erdos and Rothschild in 1974, but it has been solved only for a very small number of non-trivial cases. In previous work with Yilma, we constructed a finite optimisation problem whose maximum is equal to the limit of 2 F(n;k)/n 2 as n tends to infinity and proved a stability theorem for complete multipartite graphs G. In this paper we provide a sufficient condition on k which guarantees a general stability theorem for any graph G, describing the asymptotic structure of G on n vertices with F(G;k) = F(n;k) · 2o(n2) in terms of solutions to the optimisation problem. We apply our theorem to systematically recover existing stability results as well as all cases with s=2. The proof uses a novel version of symmetrisation on edge-coloured weighted multigraphs.