A linear upper bound on the Zp-Ramsey number of graphs with sufficiently large 2-packing

Abstract

Given a positive integer k and graph G, the Zk-Ramsey number R(G,Zk) is the least N (if it exists) such that every coloring f:E(KN)→ Zk contains a copy G' of G such that Σe∈ E(G')f(e)=0. Motivated by a question of Caro and Mifsud, we study the Zk-Ramsey number of graphs with a sufficiently large 2-packing, i.e. a set of vertices S⊂eq V(G) such that N[u] N[v]= for all distinct u,v∈ S. In particular, we prove that R(G,Zp)≤ n+6p-9 for all n-vertex graphs G and all primes p such that p divides e(G), the minimum degree of G is at least 1, and there exists a 2-packing of G with size p-1. This upper bound improves depending on vertex degrees in the 2-packing, with equality in certain cases. The result also implies an upper bound of the form R(G,Zp)≤ n+C for n-vertex graphs G of bounded maximum degree.