光滑条件下的双方性

IF 0.9 4区 数学 Q3 COMPUTER SCIENCE, THEORY & METHODS Combinatorics, Probability & Computing Pub Date : 2023-02-03 DOI:10.1017/s0963548323000019
Tao Jiang, Sean Longbrake, Jie Ma
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Motivated by their work on a conjecture of Erdős and Simonovits on compactness and a classic result of Andrásfai, Erdős and Sós, Allen, Keevash, Sudakov and Verstraëte proved that for any \n$(\\alpha,\\beta )$\n -smooth family \n$\\mathcal{F}$\n , there exists \n$k_0$\n such that for all odd \n$k\\geq k_0$\n and sufficiently large \n$n$\n , any \n$n$\n -vertex \n$\\mathcal{F}\\cup \\{C_k\\}$\n -free graph with minimum degree at least \n$\\rho (\\frac{2n}{5}+o(n))^{\\alpha -1}$\n is bipartite. In this paper, we strengthen their result by showing that for every real \n$\\delta \\gt 0$\n , there exists \n$k_0$\n such that for all odd \n$k\\geq k_0$\n and sufficiently large \n$n$\n , any \n$n$\n -vertex \n$\\mathcal{F}\\cup \\{C_k\\}$\n -free graph with minimum degree at least \n$\\delta n^{\\alpha -1}$\n is bipartite. 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引用次数: 3

摘要

给定一个家庭 $\mathcal{F}$ 二部图的,Zarankiewicz数 $z(m,n,\mathcal{F})$ a的最大边数是多少 $m$ 通过 $n$ 二部图 $G$ 它不包含任何元素 $\mathcal{F}$ 作为子图(如 $G$ 叫做 $\mathcal{F}$ 免费)。因为 $1\leq \beta \lt \alpha \lt 2$ ,一个家庭 $\mathcal{F}$ 二部图的 $(\alpha,\beta )$ -对一些人来说是平滑的 $\rho \gt 0$ 每一个 $m\leq n$ , $z(m,n,\mathcal{F})=\rho m n^{\alpha -1}+O(n^\beta )$ . 受Erdős和Simonovits关于紧致性的猜想以及Andrásfai、Erdős和Sós的经典结果的启发,Allen、Keevash、Sudakov和Verstraëte证明了这一点 $(\alpha,\beta )$ -平滑家族 $\mathcal{F}$ ,存在 $k_0$ 这样,对于所有奇数 $k\geq k_0$ 并且足够大 $n$ ,任何 $n$ -顶点 $\mathcal{F}\cup \{C_k\}$ 具有最小度的自由图 $\rho (\frac{2n}{5}+o(n))^{\alpha -1}$ 是二部的。在本文中,我们通过证明对于每一个实数 $\delta \gt 0$ ,存在 $k_0$ 这样,对于所有奇数 $k\geq k_0$ 并且足够大 $n$ ,任何 $n$ -顶点 $\mathcal{F}\cup \{C_k\}$ 具有最小度的自由图 $\delta n^{\alpha -1}$ 是二部的。此外,我们的结果在更宽松的平滑概念下成立,其中包括家庭 $\mathcal{F}$ 由单个图组成的 $K_{s,t}$ 什么时候 $t\gg s$ . 我们也证明了一个类似的结果 $C_{2\ell }$ 所有的自由图 $\ell \geq 2$ ,这是对Keevash、Sudakov和Verstraëte研究结果的补充。
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Bipartite-ness under smooth conditions
Abstract Given a family $\mathcal{F}$ of bipartite graphs, the Zarankiewicz number $z(m,n,\mathcal{F})$ is the maximum number of edges in an $m$ by $n$ bipartite graph $G$ that does not contain any member of $\mathcal{F}$ as a subgraph (such $G$ is called $\mathcal{F}$ -free). For $1\leq \beta \lt \alpha \lt 2$ , a family $\mathcal{F}$ of bipartite graphs is $(\alpha,\beta )$ -smooth if for some $\rho \gt 0$ and every $m\leq n$ , $z(m,n,\mathcal{F})=\rho m n^{\alpha -1}+O(n^\beta )$ . Motivated by their work on a conjecture of Erdős and Simonovits on compactness and a classic result of Andrásfai, Erdős and Sós, Allen, Keevash, Sudakov and Verstraëte proved that for any $(\alpha,\beta )$ -smooth family $\mathcal{F}$ , there exists $k_0$ such that for all odd $k\geq k_0$ and sufficiently large $n$ , any $n$ -vertex $\mathcal{F}\cup \{C_k\}$ -free graph with minimum degree at least $\rho (\frac{2n}{5}+o(n))^{\alpha -1}$ is bipartite. In this paper, we strengthen their result by showing that for every real $\delta \gt 0$ , there exists $k_0$ such that for all odd $k\geq k_0$ and sufficiently large $n$ , any $n$ -vertex $\mathcal{F}\cup \{C_k\}$ -free graph with minimum degree at least $\delta n^{\alpha -1}$ is bipartite. Furthermore, our result holds under a more relaxed notion of smoothness, which include the families $\mathcal{F}$ consisting of the single graph $K_{s,t}$ when $t\gg s$ . We also prove an analogous result for $C_{2\ell }$ -free graphs for every $\ell \geq 2$ , which complements a result of Keevash, Sudakov and Verstraëte.
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来源期刊
Combinatorics, Probability & Computing
Combinatorics, Probability & Computing 数学-计算机:理论方法
CiteScore
2.40
自引率
11.10%
发文量
33
审稿时长
6-12 weeks
期刊介绍: Published bimonthly, Combinatorics, Probability & Computing is devoted to the three areas of combinatorics, probability theory and theoretical computer science. Topics covered include classical and algebraic graph theory, extremal set theory, matroid theory, probabilistic methods and random combinatorial structures; combinatorial probability and limit theorems for random combinatorial structures; the theory of algorithms (including complexity theory), randomised algorithms, probabilistic analysis of algorithms, computational learning theory and optimisation.
期刊最新文献
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