The strong clique number of graphs with forbidden cycles
| Autor: | Cho, Eun-Kyung, Choi, Ilkyoo, Kim, Ringi, Park, Boram |
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| Rok vydání: | 2020 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Given a graph $G$, the strong clique number of $G$, denoted $\omega_S(G)$, is the maximum size of a set $S$ of edges such that every pair of edges in $S$ has distance at most $2$ in the line graph of $G$. As a relaxation of the renowned Erd\H{o}s--Ne\v{s}et\v{r}il conjecture regarding the strong chromatic index, Faudree et al. suggested investigating the strong clique number, and conjectured a quadratic upper bound in terms of the maximum degree. Recently, Cames van Batenburg, Kang, and Pirot conjectured a linear upper bound in terms of the maximum degree for graphs without even cycles. Namely, if $G$ is a $C_{2k}$-free graph, then $\omega_S(G)\leq (2k-1)\Delta(G)-{2k-1\choose 2}$, and if $G$ is a $C_{2k}$-free bipartite graph, then $\omega_S(G)\leq k\Delta(G)-(k-1)$. We prove the second conjecture in a stronger form, by showing that forbidding all odd cycles is not necessary. To be precise, we show that a $\{C_5, C_{2k}\}$-free graph $G$ with $\Delta(G)\ge 1$ satisfies $\omega_S(G)\leq k\Delta(G)-(k-1)$, when either $k\geq 4$ or $k\in \{2,3\}$ and $G$ is also $C_3$-free. Regarding the first conjecture, we prove an upper bound that is off by the constant term. Namely, for $k\geq 3$, we prove that a $C_{2k}$-free graph $G$ with $\Delta(G)\ge 1$ satisfies $\omega_S(G)\leq (2k-1)\Delta(G)+(2k-1)^2$. This improves some results of Cames van Batenburg, Kang, and Pirot. Comment: 15 pages, 7 figures |
| Databáze: | arXiv |
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