跨度结构的正同度阈值

arXiv - MATH - Combinatorics Pub Date : 2024-09-13 DOI:arxiv-2409.09185

Anastasia Halfpap, Van Magnan

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引用次数: 0

摘要

非空 $r$ 图 $H$ 的最小正同度（表示为 $delta_{r-1}^+(H)$）是这样一个最大整数 $k$：如果大小为 $r-1$ 的集合 $S （子集 V(H)$）至少包含在 $H$ 的一个 $r$ 边中，那么 $S$ 至少包含在 $H$ 的 $k$ $r$ 边中。最近有几篇论文将最小正共度作为 $r$ 图中最小度的一个合理概念进行了研究，受这些论文的启发，我们考虑了 $\delta_{r-1}^+(H)$ 的边界，它将保证 $H$ 中各种跨子图的存在。我们精确地确定了$r$图中Berge哈密顿循环的最小正共度阈值，并渐进地确定了$3$图中松散哈密顿循环的最小正共度阈值。对于所有 $r$，我们还确定了完美匹配的最小正同度阈值，其最大值为一个加常数。

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Positive co-degree thresholds for spanning structures

The \textit{minimum positive co-degree} of a non-empty $r$-graph $H$, denoted $\delta_{r-1}^+(H)$, is the largest integer $k$ such that if a set $S \subset V(H)$ of size $r-1$ is contained in at least one $r$-edge of $H$, then $S$ is contained in at least $k$ $r$-edges of $H$. Motivated by several recent papers which study minimum positive co-degree as a reasonable notion of minimum degree in $r$-graphs, we consider bounds of $\delta_{r-1}^+(H)$ which will guarantee the existence of various spanning subgraphs in $H$. We precisely determine the minimum positive co-degree threshold for Berge Hamiltonian cycles in $r$-graphs, and asymptotically determine the minimum positive co-degree threshold for loose Hamiltonian cycles in $3$-graphs. For all $r$, we also determine up to an additive constant the minimum positive co-degree threshold for perfect matchings.

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arXiv - MATH - Combinatorics

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