Chromatic Ramsey number of acyclic hypergraphs

Abstract

Suppose that T is an acyclic r-uniform hypergraph, with r 2. We define the (t-color) chromatic Ramsey number (T,t) as the smallest m with the following property: if the edges of any m-chromatic r-uniform hypergraph are colored with t colors in any manner, there is a monochromatic copy of T. We observe that (T,t) is well defined and Rr(T,t)-1 r-1 +1 (T,t) |E(T)|t+1 where Rr(T,t) is the t-color Ramsey number of H. We give linear upper bounds for (T,t) when T is a matching or star, proving that for r 2, k 1, t 1, (Mkr,t) (t-1)(k-1)+2k and (Skr,t) t(k-1)+2 where Mkr and Skr are, respectively, the r-uniform matching and star with k edges. The general bounds are improved for 3-uniform hypergraphs. We prove that (Mk3,2)=2k, extending a special case of Alon-Frankl-Lov\'asz' theorem. We also prove that (S23,t) t+1, which is sharp for t=2,3. This is a corollary of a more general result. We define H[1] as the 1-intersection graph of H, whose vertices represent hyperedges and whose edges represent intersections of hyperedges in exactly one vertex. We prove that (H) (H[1]) for any 3-uniform hypergraph H (assuming (H[1]) 2). The proof uses the list coloring version of Brooks' theorem.