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Splits with forbidden subgraphs

Published 25 Jun 2020 in math.CO | (2006.14466v3)

Abstract: In this note, we fix a graph $H$ and ask into how many vertices can each vertex of a clique of size $n$ can be "split" such that the resulting graph is $H$-free. Formally: A graph is an $(n,k)$-graph if its vertex sets is a pairwise disjoint union of $n$ parts of size at most $k$ each such that there is an edge between any two distinct parts. Let $$ f(n,H) = \min {k \in \mathbb N : \mbox{there is an $(n,k)$-graph $G$ such that $H\not\subseteq G$}} . $$ Barbanera and Ueckerdt observed that $f(n, H)=2$ for any graph $H$ that is not bipartite. If a graph $H$ is bipartite and has a well-defined Tur\'an exponent, i.e., ${\rm ex}(n, H) = \Theta(nr)$ for some $r$, we show that $\Omega (n{2/r -1}) = f(n, H) = O (n{2/r-1} \log {1/r} n)$. We extend this result to all bipartite graphs for which an upper and a lower Tur\'an exponents do not differ by much. In addition, we prove that $f(n, K_{2,t}) =\Theta(n{1/3})$ for any fixed $t$.

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