{"title":"On Graphs Embeddable in a Layer of a Hypercube and Their Extremal Numbers","authors":"Maria Axenovich, Ryan R. Martin, Christian Winter","doi":"10.1007/s00026-024-00705-2","DOIUrl":null,"url":null,"abstract":"<div><p>A graph is cubical if it is a subgraph of a hypercube. For a cubical graph <i>H</i> and a hypercube <span>\\(Q_n\\)</span>, <span>\\(\\textrm{ex}(Q_n, H)\\)</span> is the largest number of edges in an <i>H</i>-free subgraph of <span>\\(Q_n\\)</span>. If <span>\\(\\textrm{ex}(Q_n, H)\\)</span> is at least a positive proportion of the number of edges in <span>\\(Q_n\\)</span>, then <i>H</i> is said to have positive Turán density in the hypercube; otherwise it has zero Turán density. Determining <span>\\(\\textrm{ex}(Q_n, H)\\)</span> and even identifying whether <i>H</i> has positive or zero Turán density remains a widely open question for general <i>H</i>. In this paper we focus on layered graphs, i.e., graphs that are contained in an edge layer of some hypercube. Graphs <i>H</i> that are not layered have positive Turán density because one can form an <i>H</i>-free subgraph of <span>\\(Q_n\\)</span> consisting of edges of every other layer. For example, a 4-cycle is not layered and has positive Turán density. However, in general, it is not obvious what properties layered graphs have. We give a characterization of layered graphs in terms of edge-colorings. We show that most non-trivial subdivisions have zero Turán density, extending known results on zero Turán density of even cycles of length at least 12 and of length 8. However, we prove that there are cubical graphs of girth 8 that are not layered and thus having positive Turán density. The cycle of length 10 remains the only cycle for which it is not known whether its Turán density is positive or not. We prove that <span>\\(\\textrm{ex}(Q_n, C_{10})= \\Omega (n2^n/ \\log ^a n)\\)</span>, for a constant <i>a</i>, showing that the extremal number for a 10-cycle behaves differently from any other cycle of zero Turán density.</p></div>","PeriodicalId":50769,"journal":{"name":"Annals of Combinatorics","volume":"28 4","pages":"1257 - 1283"},"PeriodicalIF":0.6000,"publicationDate":"2024-07-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://link.springer.com/content/pdf/10.1007/s00026-024-00705-2.pdf","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Annals of Combinatorics","FirstCategoryId":"100","ListUrlMain":"https://link.springer.com/article/10.1007/s00026-024-00705-2","RegionNum":4,"RegionCategory":"数学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"MATHEMATICS, APPLIED","Score":null,"Total":0}
引用次数: 0
Abstract
A graph is cubical if it is a subgraph of a hypercube. For a cubical graph H and a hypercube \(Q_n\), \(\textrm{ex}(Q_n, H)\) is the largest number of edges in an H-free subgraph of \(Q_n\). If \(\textrm{ex}(Q_n, H)\) is at least a positive proportion of the number of edges in \(Q_n\), then H is said to have positive Turán density in the hypercube; otherwise it has zero Turán density. Determining \(\textrm{ex}(Q_n, H)\) and even identifying whether H has positive or zero Turán density remains a widely open question for general H. In this paper we focus on layered graphs, i.e., graphs that are contained in an edge layer of some hypercube. Graphs H that are not layered have positive Turán density because one can form an H-free subgraph of \(Q_n\) consisting of edges of every other layer. For example, a 4-cycle is not layered and has positive Turán density. However, in general, it is not obvious what properties layered graphs have. We give a characterization of layered graphs in terms of edge-colorings. We show that most non-trivial subdivisions have zero Turán density, extending known results on zero Turán density of even cycles of length at least 12 and of length 8. However, we prove that there are cubical graphs of girth 8 that are not layered and thus having positive Turán density. The cycle of length 10 remains the only cycle for which it is not known whether its Turán density is positive or not. We prove that \(\textrm{ex}(Q_n, C_{10})= \Omega (n2^n/ \log ^a n)\), for a constant a, showing that the extremal number for a 10-cycle behaves differently from any other cycle of zero Turán density.
期刊介绍:
Annals of Combinatorics publishes outstanding contributions to combinatorics with a particular focus on algebraic and analytic combinatorics, as well as the areas of graph and matroid theory. Special regard will be given to new developments and topics of current interest to the community represented by our editorial board.
The scope of Annals of Combinatorics is covered by the following three tracks:
Algebraic Combinatorics:
Enumerative combinatorics, symmetric functions, Schubert calculus / Combinatorial Hopf algebras, cluster algebras, Lie algebras, root systems, Coxeter groups / Discrete geometry, tropical geometry / Discrete dynamical systems / Posets and lattices
Analytic and Algorithmic Combinatorics:
Asymptotic analysis of counting sequences / Bijective combinatorics / Univariate and multivariable singularity analysis / Combinatorics and differential equations / Resolution of hard combinatorial problems by making essential use of computers / Advanced methods for evaluating counting sequences or combinatorial constants / Complexity and decidability aspects of combinatorial sequences / Combinatorial aspects of the analysis of algorithms
Graphs and Matroids:
Structural graph theory, graph minors, graph sparsity, decompositions and colorings / Planar graphs and topological graph theory, geometric representations of graphs / Directed graphs, posets / Metric graph theory / Spectral and algebraic graph theory / Random graphs, extremal graph theory / Matroids, oriented matroids, matroid minors / Algorithmic approaches