Lower Bound on the Size-Ramsey Number of Tight Paths

Abstract

The size-Ramsey number R(k)(H) of a k-uniform hypergraph H is the minimum number of edges in a k-uniform hypergraph G with the property that every `2-edge coloring' of G contains a monochromatic copy of H. For k2 and n∈N, a k-uniform tight path on n vertices P(k)n is defined as a k-uniform hypergraph on n vertices for which there is an ordering of its vertices such that the edges are all sets of k consecutive vertices with respect to this order. We prove a lower bound on the size-Ramsey number of k-uniform tight paths, which is, considered assymptotically in both the uniformity k and the number of vertices n, R(k)(P(k)n)= ( (k)n).