Constrained Ramsey numbers for rainbow P5
Abstract
Given a graph H and a positive integer k, the k-colored Ramsey number Rk(H) is the minimum integer n such that in every k-edge-coloring of the complete graph Kn, there is a monochromatic copy of H. Given two graphs H and G, the constrained Ramsey number (also called rainbow Ramsey number) f(H,G) is defined as the minimum integer n such that, in every edge-coloring of Kn with any number of colors, there is either a monochromatic copy of H or a rainbow copy of G. Let Pt be the path on t vertices. Gy\'arf\'as, Lehel and Schelp proved that f(H,P5)=R3(H) when H is a path or a cycle. Li, Besse, Magnant, Wang and Watts conjectured that f(H,P5)=R3(H) for any graph H, and confirmed this for all connected graphs and all bipartite graphs. In this paper, we address this conjecture for multiple classes of disconnected graphs with chromatic number at least 3. Our newly established general results encompass all known results on this problem. We also obtain several results for a bipartite variation of the problem. In addition, we propose a series of questions concerning this problem from multiple distinct aspects for further research.
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