Tree-thickness and caterpillar-thickness under girth constraints
The electronic journal of combinatorics, Tome 15 (2008)
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We study extremal problems for decomposing a connected $n$-vertex graph $G$ into trees or into caterpillars. The least size of such a decomposition is the tree thickness $\theta_{\bf T}(G)$ or caterpillar thickness $\theta_{\bf C}(G)$. If $G$ has girth $g$ with $g\ge 5$, then $\theta_{\bf T}(G)\le \lfloor{n/g}\rfloor+1$. We conjecture that the bound holds also for $g=4$ and prove it when $G$ contains no subdivision of $K_{2,3}$ with girth 4. For $\theta_{\bf C}$, we prove that $\theta_{\bf C}(G)\le\lceil{(n-2)/4}\rceil$ when $G$ has girth at least $6$ and is not a $6$-cycle. For triangle-free graphs, we conjecture that $\theta_{\bf C}(G)\le\lceil{3n/8}\rceil$ and prove it for outerplanar graphs. For $2$-connected graphs with girth $g$, we conjecture that $\theta_{\bf C}(G)\le \lfloor{n/g}\rfloor$ when $n\ge\max\{6,g^2/2\}$ and prove it for outerplanar graphs. All the bounds are sharp (sharpness in the $\lceil{3n/8}\rceil$ bound is shown only for $n\equiv 5$ mod $8$).
Qi Liu; Douglas B. West. Tree-thickness and caterpillar-thickness under girth constraints. The electronic journal of combinatorics, Tome 15 (2008). doi: 10.37236/817
@article{10_37236_817,
author = {Qi Liu and Douglas B. West},
title = {Tree-thickness and caterpillar-thickness under girth constraints},
journal = {The electronic journal of combinatorics},
year = {2008},
volume = {15},
doi = {10.37236/817},
zbl = {1163.05321},
url = {http://geodesic.mathdoc.fr/articles/10.37236/817/}
}
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