Tight minimum degree condition to guarantee $C_{2k+1}$-free graphs to be $r$-partite
| Autor: | Yan, Zilong, Peng, Yuejian, Yuan, Xiaoli |
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| Rok vydání: | 2024 |
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| Druh dokumentu: | Working Paper |
| Popis: | Erd\H{o}s and Simonovits asked the following question: For an integer $c\geq 2$ and a family of graphs $\mathcal{F}$, what is the infimum of $\alpha$ such that any $\mathcal{F}$-free $n$-vertex graph with minimum degree at least $\alpha n$ has chromatic number at most $c$? Denote the infimum as $\delta_{\chi}(\mathcal{F}, c)$. A fundamental result of Erd\H{o}s, Stone and Simonovits \cite{ES46, ES66} implies that for any $c\le r-1$, $\delta_{\chi}(\mathcal{F}, c)=1-{1 \over r}$, where $r+1=\chi(\mathcal{F})=\min\{\chi (F): F\in \mathcal{F}\}$. So the remaining challenge is to determine $\delta_{\chi}(\mathcal{F}, c)$ for $c\ge \chi (\mathcal{F})-1$. Most previous known results are under the condition $c= \chi (\mathcal{F})-1$. When $c\ge \chi (\mathcal{F})$, the only known exact results are $\delta_{\chi}(K_3, 3)$ by H\"aggkvist and Jin, and $\delta_{\chi}(K_3, c)$ for every $c\ge4$ by Brandt and Thomass\'{e}, $\delta_{\chi}(K_r, r)$ and $\delta_{\chi}(K_r, r+1)$ by Nikiforov. In this paper, we focus on odd cycles. Combining results of Thomassen and Ma, we have $\Omega\bigg((c+1)^{-8(k+1)}\bigg)=\delta_{\chi}(C_{2k+1}, c)=O(\frac{k}{c})$ for $c\ge 3$. In this paper, we determine $\delta_{\chi}(C_{2k+1}, c)$ for all $c\ge 2$ and $k\ge 3c+4$ ($k\ge 5$ if $c=2$). We also obtain the following corollary. If $G$ is a non-$c$-partite graph on $n$ vertices with $c\ge 3$ and $\delta(G)> {n \over 2c+2}$, then $C_{2k+1} \subset G$ for all $k\in [3c+4, {n \over 108(c+1)^c}]$. Comment: arXiv admin note: text overlap with arXiv:2408.15487 |
| Databáze: | arXiv |
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