The theta-complete graph Ramsey number \(R(\theta_n, K_5) = 4n-3\) for \(n \geq 6\) and \(n \geq 10\).

Jaradat, M.M.M.; Bataineh, M.S.A.; Hazeem,  N. Al

Abstract

References

Ars Combinatoria

Volume 134
Pages: 177-191

Research article

The theta-complete graph Ramsey number \(R(\theta_n, K_5) = 4n-3\) for \(n \geq 6\) and \(n \geq 10\).

^¹, ^², ^²

¹Department of Mathematics, Statistics and Physics Qatar University Doha-Qatar

²Department of Mathematics Yarmouk University Irbid-Jordan

Published: 31/07/2017

Download PDF
Cite

Copyright Link
License

Abstract

For any two graphs \(F_1\) and \(F_2\), the graph Ramsey number \(r(F_1, F_2)\) is the smallest positive integer \(N\) with the property that every graph of at least \(N\) vertices contains \(F_1\) or its complement contains \(F_2\) as a subgraph. In this paper, we consider the Ramsey numbers for theta-complete graphs. In fact, we prove that \(r(\theta_n, K_5) = 4n-3\) for \(n \geq 6\) and \(n \geq 10\).

Contents

Ars Combinatoria

The theta-complete graph Ramsey number \(R(\theta_n, K_5) = 4n-3\) for \(n \geq 6\) and \(n \geq 10\).

Abstract

Information

Guidelines

CP Initiatives

Follow CP