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$k$-tree connectivity of line graphs (2003.03568v1)

Published 7 Mar 2020 in math.CO

Abstract: For a graph $G=(V,E)$ and a set $S\subseteq V(G)$ of size at least $2$, an $S$-Steiner tree $T$ is a subgraph of $G$ that is a tree with $S\subseteq V(T)$. Two $S$-Steiner trees $T$ and $T'$ are internally disjoint (resp. edge-disjoint) if $E(T)\cap E(T')=\emptyset$ and $V(T)\cap V(T')=S$ (resp. if $E(T)\cap E(T')=\emptyset$). Let $\kappa_G (S)$ (resp. $\lambda_G (S)$) denote the maximum number of internally disjoint (resp. edge-disjoint) $S$-Steiner trees in $G$. The $k$-tree connectivity $\kappa_k(G)$ (resp. $k$-tree edge-connectivity $\lambda_k(G)$) of $G$ is then defined as the minimum $\kappa_G (S)$ (resp. $\lambda_G (S)$), where $S$ ranges over all $k$-subsets of $V(G)$. In [H. Li, B. Wu, J. Meng, Y. Ma, Steiner tree packing number and tree connectivity, Discrete Math. 341(2018), 1945--1951], the authors conjectured that if a connected graph $G$ has at least $k$ vertices and at least $k$ edges, then $\kappa_k(L(G))\geq \lambda_k(G)$ for any $k\geq 2$, where $L(G)$ is the line graph of $G$. In this paper, we confirm this conjecture and prove that the bound is sharp.

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