Ramsey numbers of cycles versus general graphs

Abstract

The Ramsey number R(F,H) is the minimum number N such that any N-vertex graph either contains a copy of F or its complement contains H. Burr in 1981 proved a pleasingly general result that for any graph H, provided n is sufficiently large, a natural lower bound construction gives the correct Ramsey number involving cycles: R(Cn,H)=(n-1)((H)-1)+σ(H), where σ(H) is the minimum possible size of a colour class in a (H)-colouring of H. Allen, Brightwell and Skokan conjectured that the same should be true already when n≥ |H|(H). We improve this 40-year-old result of Burr by giving quantitative bounds of the form n≥ C|H|4(H), which is optimal up to the logarithmic factor. In particular, this proves a strengthening of the Allen-Brightwell-Skokan conjecture for all graphs H with large chromatic number.

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