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Non-degenerate Hypergraphs with Exponentially Many Extremal Constructions
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Non-degenerate Hypergraphs with Exponentially Many Extremal Constructions
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For every integer $t \ge 0$, denote by $F_5^t$ the hypergraph on vertex set $\{1,2,\ldots, 5+t\}$ with hyperedges $\{123,124\} \cup \{34k : 5 \le k \le 5+t\}$. We determine $\mathrm{ex}(n,F_5^t)$ for every $t\ge 0$ and sufficiently large $n$ and characterize the extremal $F_5^t$-free hypergraphs. In particular, if $n$ satisfies certain divisibility conditions, then the extremal $F_5^t$-free hypergraphs are exactly the balanced complete tripartite hypergraphs with additional hyperedges inside each of the three parts $(V_1,V_2,V_3)$ in the partition; each part $V_i$ spans a $(|V_i|,3,2,t)$-design. This generalizes earlier work of Frankl and F\"uredi on the Tur\'an number of $F_5:=F_5^0$. Our results extend a theory of Erd\H{o}s and Simonovits about the extremal constructions for certain fixed graphs. In particular, the hypergraphs $F_5^{6t}$, for $t\geq 1$, are the first examples of hypergraphs with exponentially many extremal constructions and positive Tur\'an density.
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Cited by 1 Pith paper
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The Tur\'an Density of 4-Uniform Tight Cycles
Long 4-uniform tight cycles C_L^(4) with L not divisible by 4 have Turán density 1/2.
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