On the Zarankiewicz Problem for the Intersection Hypergraphs
Résumé
Let d and t be fixed positive integers, and let K d t,...,t denote the complete d-partite hypergraph with t ver-tices in each of its parts, whose hyperedges are the d-tuples of the vertex set with precisely one element from each part. According to a fundamental theorem of extremal hypergraph theory, due to Erdös [6], the number of hyperedges of a d-uniform hypergraph on n vertices that does not contain K d t,...,t as a subhypergraph, is n d− 1 t d−1. This bound is not far from being optimal. We address the same problem restricted to intersection hypergraphs of (d − 1)-dimensional simplices in R d. Given an n-element set S of such simplices, let H d (S) denote the d-uniform hypergraph whose vertices are the elements of S, and a d-tuple is a hyperedge if and only if the corresponding simplices have a point in common. We prove that if H d (S) does not contain K d t,...,t as a subhypergraph, then its number of edges is O(n) if d = 2, and O(n d−1+) for any > 0 if d ≥ 3. This is almost a factor of n better than Erd˝ os's above bound. Our result is tight, apart from the error term in the exponent. In particular, for d = 2, we obtain a theorem of Fox and Pach [7], which states that every K t,t-free intersection graph of n segments in the plane has O(n) edges. The original proof was based on a separator theorem that does not generalize to higher dimensions. The new proof works in any dimension and is simpler: it uses size-sensitive cuttings, a variant of random sampling.
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