k$-Leaf Powers Cannot be Characterized by a Finite Set of Forbidden Induced Subgraphs for $k \geq 5
A graph $G=(V,E)$ is a $k$-leaf power if there is a tree $T$ whose leaves are the vertices of $G$ with the property that a pair of leaves $u$ and $v$ induce an edge in $G$ if and only if they are distance at most $k$ apart in $T$. For $k\le 4$, it is known that there exists a finite set $F_k$ of gra...
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| Zusammenfassung: | A graph $G=(V,E)$ is a $k$-leaf power if there is a tree $T$ whose leaves are
the vertices of $G$ with the property that a pair of leaves $u$ and $v$ induce
an edge in $G$ if and only if they are distance at most $k$ apart in $T$. For
$k\le 4$, it is known that there exists a finite set $F_k$ of graphs such that
the class $L(k)$ of $k$-leaf power graphs is characterized as the set of
strongly chordal graphs that do not contain any graph in $F_k$ as an induced
subgraph. We prove no such characterization holds for $k\ge 5$. That is, for
any $k\ge 5$, there is no finite set $F_k$ of graphs such that $L(k)$ is
equivalent to the set of strongly chordal graphs that do not contain as an
induced subgraph any graph in $F_k$. |
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| DOI: | 10.48550/arxiv.2407.02412 |