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Ramsey Number of Wheels Versus Cycles and Trees

Published online by Cambridge University Press:  20 November 2018

Ghaffar Raeisi  and
Ali Zaghian
Ghaffar Raeisi
Affiliation:
Department of Mathematical Sciences, Shahrekord University, Shahrekord, P.O. Box 115, Iran e-mail: g.raeisi@math.iut.ac.ir
Ali Zaghian
Affiliation:
Department of Mathematics and Cryptography, Malek-Ashtar University of Technology, Isfahan, P.O. Box 83145/115, Iran e-mail: a.zaghian@mut-es.ac.ir
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Abstract

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Let ${{G}_{1}},\,{{G}_{2}},\,.\,.\,.\,,\,{{G}_{t}}$ be arbitrary graphs. The Ramsey number $R\left( {{G}_{1}},\,{{G}_{2}},\,.\,.\,.,{{G}_{t}} \right)$ is the smallest positive integer $n$ such that if the edges of the complete graph ${{K}_{n}}$ are partitioned into $t$ disjoint color classes giving $t$ graphs ${{H}_{1}},\,{{H}_{2}},\,.\,.\,.\,,\,{{H}_{t}}$ , then at least one ${{H}_{i}}$ has a subgraph isomorphic to ${{G}_{i}}$ . In this paper, we provide the exact value of the $R({{T}_{n}},\,{{W}_{m}})$ for odd $m,\,n\,\ge \,m-1$ , where ${{T}_{n}}$ is either a caterpillar, a tree with diameter at most four, or a tree with a vertex adjacent to at least $\left\lceil \frac{n}{2} \right\rceil \,-\,2$ leaves, and ${{W}_{n}}$ is the wheel on $n\,+\,1$ vertices. Also, we determine $R\left( {{C}_{n}},\,{{W}_{m}} \right)$ for even integers $n$ and $m,\,n\,\ge \,m\,+\,500$ , which improves a result of Shi and confirms a conjecture of Surahmat et al. In addition, the multicolor Ramsey number of trees versus an odd wheel is discussed in this paper.

Keywords

05C1505C5505C65Ramsey numberwheeltreecycle
Type
Research Article
Information
Canadian Mathematical Bulletin , Volume 59 , Issue 1 , 01 March 2016 , pp. 190 - 196
Copyright
Copyright © Canadian Mathematical Society 2016

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