Ramsey numbers of trees versus odd cycles
The electronic journal of combinatorics, Tome 23 (2016) no. 3
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Zbl arXiv
Burr, Erdős, Faudree, Rousseau and Schelp initiated the study of Ramsey numbers of trees versus odd cycles, proving that $R(T_n, C_m) = 2n - 1$ for all odd $m \ge 3$ and $n \ge 756m^{10}$, where $T_n$ is a tree with $n$ vertices and $C_m$ is an odd cycle of length $m$. They proposed to study the minimum positive integer $n_0(m)$ such that this result holds for all $n \ge n_0(m)$, as a function of $m$. In this paper, we show that $n_0(m)$ is at most linear. In particular, we prove that $R(T_n, C_m) = 2n - 1$ for all odd $m \ge 3$ and $n \ge 25m$. Combining this with a result of Faudree, Lawrence, Parsons and Schelp yields $n_0(m)$ is bounded between two linear functions, thus identifying $n_0(m)$ up to a constant factor.
DOI :
10.37236/5731
Classification :
05C55, 05D10, 05C05, 05C38
Mots-clés : Ramsey number, odd cycles
Mots-clés : Ramsey number, odd cycles
Affiliations des auteurs :
Matthew Brennan 1
Matthew Brennan. Ramsey numbers of trees versus odd cycles. The electronic journal of combinatorics, Tome 23 (2016) no. 3. doi: 10.37236/5731
@article{10_37236_5731,
author = {Matthew Brennan},
title = {Ramsey numbers of trees versus odd cycles},
journal = {The electronic journal of combinatorics},
year = {2016},
volume = {23},
number = {3},
doi = {10.37236/5731},
zbl = {1339.05247},
url = {http://geodesic.mathdoc.fr/articles/10.37236/5731/}
}
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