A hypergraph analog of Dirac's Theorem for long cycles in 2-connected graphs, II: Large uniformities

Abstract

Dirac proved that each n-vertex 2-connected graph with minimum degree k contains a cycle of length at least \2k, n\. We obtain analogous results for Berge cycles in hypergraphs. Recently, the authors proved an exact lower bound on the minimum degree ensuring a Berge cycle of length at least \2k, n\ in n-vertex r-uniform 2-connected hypergraphs when k ≥ r+2. In this paper we address the case k ≤ r+1 in which the bounds have a different behavior. We prove that each n-vertex r-uniform 2-connected hypergraph H with minimum degree k contains a Berge cycle of length at least \2k,n,|E(H)|\. If |E(H)|≥ n, this bound coincides with the bound of the Dirac's Theorem for 2-connected graphs.

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