无顶点相交循环平面图的极谱结果

Pub Date : 2024-02-28 DOI:10.1002/jgt.23084

Longfei Fang, Huiqiu Lin, Yongtang Shi

{"title":"无顶点相交循环平面图的极谱结果","authors":"Longfei Fang, Huiqiu Lin, Yongtang Shi","doi":"10.1002/jgt.23084","DOIUrl":null,"url":null,"abstract":"Given a planar graph family <math>\n <semantics>\n <mrow>\n <mi>F</mi>\n </mrow>\n <annotation> ${\\rm{ {\\mathcal F} }}$</annotation>\n </semantics></math>, let <math>\n <semantics>\n <mrow>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mi>n</mi>\n <mo>,</mo>\n <mi>F</mi>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $e{x}_{{\\mathscr{P}}}(n,{\\mathscr{F}})$</annotation>\n </semantics></math> and <math>\n <semantics>\n <mrow>\n <mi>s</mi>\n <mi>p</mi>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mi>n</mi>\n <mo>,</mo>\n <mi>F</mi>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $spe{x}_{{\\mathscr{P}}}(n,{\\mathscr{F}})$</annotation>\n </semantics></math> be the maximum size and maximum spectral radius over all <math>\n <semantics>\n <mrow>\n <mi>n</mi>\n </mrow>\n <annotation> $n$</annotation>\n </semantics></math>-vertex <math>\n <semantics>\n <mrow>\n <mi>F</mi>\n </mrow>\n <annotation> ${\\rm{ {\\mathcal F} }}$</annotation>\n </semantics></math>-free planar graphs, respectively. Let <math>\n <semantics>\n <mrow>\n <mi>t</mi>\n <msub>\n <mi>C</mi>\n <mi>ℓ</mi>\n </msub>\n </mrow>\n <annotation> $t{C}_{\\ell }$</annotation>\n </semantics></math> be the disjoint union of <math>\n <semantics>\n <mrow>\n <mi>t</mi>\n </mrow>\n <annotation> $t$</annotation>\n </semantics></math> copies of <math>\n <semantics>\n <mrow>\n <mi>ℓ</mi>\n </mrow>\n <annotation> $\\ell $</annotation>\n </semantics></math>-cycles, and <math>\n <semantics>\n <mrow>\n <mi>t</mi>\n <mi>C</mi>\n </mrow>\n <annotation> $t{\\mathscr{C}}$</annotation>\n </semantics></math> be the family of <math>\n <semantics>\n <mrow>\n <mi>t</mi>\n </mrow>\n <annotation> $t$</annotation>\n </semantics></math> vertex-disjoint cycles without length restriction. Tait and Tobin determined that <math>\n <semantics>\n <mrow>\n <msub>\n <mi>K</mi>\n <mn>2</mn>\n </msub>\n <mo>+</mo>\n <msub>\n <mi>P</mi>\n <mrow>\n <mi>n</mi>\n <mo>−</mo>\n <mn>2</mn>\n </mrow>\n </msub>\n </mrow>\n <annotation> ${K}_{2}+{P}_{n-2}$</annotation>\n </semantics></math> is the extremal spectral graph among all planar graphs with sufficiently large order <math>\n <semantics>\n <mrow>\n <mi>n</mi>\n </mrow>\n <annotation> $n$</annotation>\n </semantics></math>, which implies the extremal graphs of both <math>\n <semantics>\n <mrow>\n <mi>s</mi>\n <mi>p</mi>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mrow>\n <mi>n</mi>\n <mo>,</mo>\n <mi>t</mi>\n <msub>\n <mi>C</mi>\n <mi>ℓ</mi>\n </msub>\n </mrow>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $spe{x}_{{\\mathscr{P}}}(n,t{C}_{\\ell })$</annotation>\n </semantics></math> and <math>\n <semantics>\n <mrow>\n <mi>s</mi>\n <mi>p</mi>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mrow>\n <mi>n</mi>\n <mo>,</mo>\n <mi>t</mi>\n <mi>C</mi>\n </mrow>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $spe{x}_{{\\mathscr{P}}}(n,t{\\mathscr{C}})$</annotation>\n </semantics></math> for <math>\n <semantics>\n <mrow>\n <mi>t</mi>\n <mo>≥</mo>\n <mn>3</mn>\n </mrow>\n <annotation> $t\\ge 3$</annotation>\n </semantics></math> are <math>\n <semantics>\n <mrow>\n <msub>\n <mi>K</mi>\n <mn>2</mn>\n </msub>\n <mo>+</mo>\n <msub>\n <mi>P</mi>\n <mrow>\n <mi>n</mi>\n <mo>−</mo>\n <mn>2</mn>\n </mrow>\n </msub>\n </mrow>\n <annotation> ${K}_{2}+{P}_{n-2}$</annotation>\n </semantics></math>. In this paper, we first determine <math>\n <semantics>\n <mrow>\n <mi>s</mi>\n <mi>p</mi>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mrow>\n <mi>n</mi>\n <mo>,</mo>\n <mi>t</mi>\n <msub>\n <mi>C</mi>\n <mi>ℓ</mi>\n </msub>\n </mrow>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $spe{x}_{{\\mathscr{P}}}(n,t{C}_{\\ell })$</annotation>\n </semantics></math> and <math>\n <semantics>\n <mrow>\n <mi>s</mi>\n <mi>p</mi>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mrow>\n <mi>n</mi>\n <mo>,</mo>\n <mi>t</mi>\n <mi>C</mi>\n </mrow>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $spe{x}_{{\\mathscr{P}}}(n,t{\\mathscr{C}})$</annotation>\n </semantics></math> and characterize the unique extremal graph for <math>\n <semantics>\n <mrow>\n <mn>1</mn>\n <mo>≤</mo>\n <mi>t</mi>\n <mo>≤</mo>\n <mn>2</mn>\n </mrow>\n <annotation> $1\\le t\\le 2$</annotation>\n </semantics></math>, <math>\n <semantics>\n <mrow>\n <mi>ℓ</mi>\n <mo>≥</mo>\n <mn>3</mn>\n </mrow>\n <annotation> $\\ell \\ge 3$</annotation>\n </semantics></math> and sufficiently large <math>\n <semantics>\n <mrow>\n <mi>n</mi>\n </mrow>\n <annotation> $n$</annotation>\n </semantics></math>. Second, we obtain the exact values of <math>\n <semantics>\n <mrow>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mi>n</mi>\n <mo>,</mo>\n <mn>2</mn>\n <msub>\n <mi>C</mi>\n <mn>4</mn>\n </msub>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $e{x}_{{\\mathscr{P}}}(n,2{C}_{4})$</annotation>\n </semantics></math> and <math>\n <semantics>\n <mrow>\n <mi>e</mi>\n <msub>\n <mi>x</mi>\n <mi>P</mi>\n </msub>\n <mrow>\n <mo>(</mo>\n <mi>n</mi>\n <mo>,</mo>\n <mn>2</mn>\n <mi>C</mi>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation> $e{x}_{{\\mathscr{P}}}(n,2{\\mathscr{C}})$</annotation>\n </semantics></math>, which solve a conjecture of Li for <math>\n <semantics>\n <mrow>\n <mi>n</mi>\n <mo>≥</mo>\n <mn>2661</mn>\n </mrow>\n <annotation> $n\\ge 2661$</annotation>\n </semantics></math>.","PeriodicalId":0,"journal":{"name":"","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2024-02-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Extremal spectral results of planar graphs without vertex-disjoint cycles\",\"authors\":\"Longfei Fang, Huiqiu Lin, Yongtang Shi\",\"doi\":\"10.1002/jgt.23084\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Given a planar graph family <math>\\n <semantics>\\n <mrow>\\n <mi>F</mi>\\n </mrow>\\n <annotation> ${\\\\rm{ {\\\\mathcal F} }}$</annotation>\\n </semantics></math>, let <math>\\n <semantics>\\n <mrow>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mi>F</mi>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $e{x}_{{\\\\mathscr{P}}}(n,{\\\\mathscr{F}})$</annotation>\\n </semantics></math> and <math>\\n <semantics>\\n <mrow>\\n <mi>s</mi>\\n <mi>p</mi>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mi>F</mi>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $spe{x}_{{\\\\mathscr{P}}}(n,{\\\\mathscr{F}})$</annotation>\\n </semantics></math> be the maximum size and maximum spectral radius over all <math>\\n <semantics>\\n <mrow>\\n <mi>n</mi>\\n </mrow>\\n <annotation> $n$</annotation>\\n </semantics></math>-vertex <math>\\n <semantics>\\n <mrow>\\n <mi>F</mi>\\n </mrow>\\n <annotation> ${\\\\rm{ {\\\\mathcal F} }}$</annotation>\\n </semantics></math>-free planar graphs, respectively. Let <math>\\n <semantics>\\n <mrow>\\n <mi>t</mi>\\n <msub>\\n <mi>C</mi>\\n <mi>ℓ</mi>\\n </msub>\\n </mrow>\\n <annotation> $t{C}_{\\\\ell }$</annotation>\\n </semantics></math> be the disjoint union of <math>\\n <semantics>\\n <mrow>\\n <mi>t</mi>\\n </mrow>\\n <annotation> $t$</annotation>\\n </semantics></math> copies of <math>\\n <semantics>\\n <mrow>\\n <mi>ℓ</mi>\\n </mrow>\\n <annotation> $\\\\ell $</annotation>\\n </semantics></math>-cycles, and <math>\\n <semantics>\\n <mrow>\\n <mi>t</mi>\\n <mi>C</mi>\\n </mrow>\\n <annotation> $t{\\\\mathscr{C}}$</annotation>\\n </semantics></math> be the family of <math>\\n <semantics>\\n <mrow>\\n <mi>t</mi>\\n </mrow>\\n <annotation> $t$</annotation>\\n </semantics></math> vertex-disjoint cycles without length restriction. Tait and Tobin determined that <math>\\n <semantics>\\n <mrow>\\n <msub>\\n <mi>K</mi>\\n <mn>2</mn>\\n </msub>\\n <mo>+</mo>\\n <msub>\\n <mi>P</mi>\\n <mrow>\\n <mi>n</mi>\\n <mo>−</mo>\\n <mn>2</mn>\\n </mrow>\\n </msub>\\n </mrow>\\n <annotation> ${K}_{2}+{P}_{n-2}$</annotation>\\n </semantics></math> is the extremal spectral graph among all planar graphs with sufficiently large order <math>\\n <semantics>\\n <mrow>\\n <mi>n</mi>\\n </mrow>\\n <annotation> $n$</annotation>\\n </semantics></math>, which implies the extremal graphs of both <math>\\n <semantics>\\n <mrow>\\n <mi>s</mi>\\n <mi>p</mi>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mrow>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mi>t</mi>\\n <msub>\\n <mi>C</mi>\\n <mi>ℓ</mi>\\n </msub>\\n </mrow>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $spe{x}_{{\\\\mathscr{P}}}(n,t{C}_{\\\\ell })$</annotation>\\n </semantics></math> and <math>\\n <semantics>\\n <mrow>\\n <mi>s</mi>\\n <mi>p</mi>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mrow>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mi>t</mi>\\n <mi>C</mi>\\n </mrow>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $spe{x}_{{\\\\mathscr{P}}}(n,t{\\\\mathscr{C}})$</annotation>\\n </semantics></math> for <math>\\n <semantics>\\n <mrow>\\n <mi>t</mi>\\n <mo>≥</mo>\\n <mn>3</mn>\\n </mrow>\\n <annotation> $t\\\\ge 3$</annotation>\\n </semantics></math> are <math>\\n <semantics>\\n <mrow>\\n <msub>\\n <mi>K</mi>\\n <mn>2</mn>\\n </msub>\\n <mo>+</mo>\\n <msub>\\n <mi>P</mi>\\n <mrow>\\n <mi>n</mi>\\n <mo>−</mo>\\n <mn>2</mn>\\n </mrow>\\n </msub>\\n </mrow>\\n <annotation> ${K}_{2}+{P}_{n-2}$</annotation>\\n </semantics></math>. In this paper, we first determine <math>\\n <semantics>\\n <mrow>\\n <mi>s</mi>\\n <mi>p</mi>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mrow>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mi>t</mi>\\n <msub>\\n <mi>C</mi>\\n <mi>ℓ</mi>\\n </msub>\\n </mrow>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $spe{x}_{{\\\\mathscr{P}}}(n,t{C}_{\\\\ell })$</annotation>\\n </semantics></math> and <math>\\n <semantics>\\n <mrow>\\n <mi>s</mi>\\n <mi>p</mi>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mrow>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mi>t</mi>\\n <mi>C</mi>\\n </mrow>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $spe{x}_{{\\\\mathscr{P}}}(n,t{\\\\mathscr{C}})$</annotation>\\n </semantics></math> and characterize the unique extremal graph for <math>\\n <semantics>\\n <mrow>\\n <mn>1</mn>\\n <mo>≤</mo>\\n <mi>t</mi>\\n <mo>≤</mo>\\n <mn>2</mn>\\n </mrow>\\n <annotation> $1\\\\le t\\\\le 2$</annotation>\\n </semantics></math>, <math>\\n <semantics>\\n <mrow>\\n <mi>ℓ</mi>\\n <mo>≥</mo>\\n <mn>3</mn>\\n </mrow>\\n <annotation> $\\\\ell \\\\ge 3$</annotation>\\n </semantics></math> and sufficiently large <math>\\n <semantics>\\n <mrow>\\n <mi>n</mi>\\n </mrow>\\n <annotation> $n$</annotation>\\n </semantics></math>. Second, we obtain the exact values of <math>\\n <semantics>\\n <mrow>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mn>2</mn>\\n <msub>\\n <mi>C</mi>\\n <mn>4</mn>\\n </msub>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $e{x}_{{\\\\mathscr{P}}}(n,2{C}_{4})$</annotation>\\n </semantics></math> and <math>\\n <semantics>\\n <mrow>\\n <mi>e</mi>\\n <msub>\\n <mi>x</mi>\\n <mi>P</mi>\\n </msub>\\n <mrow>\\n <mo>(</mo>\\n <mi>n</mi>\\n <mo>,</mo>\\n <mn>2</mn>\\n <mi>C</mi>\\n <mo>)</mo>\\n </mrow>\\n </mrow>\\n <annotation> $e{x}_{{\\\\mathscr{P}}}(n,2{\\\\mathscr{C}})$</annotation>\\n </semantics></math>, which solve a conjecture of Li for <math>\\n <semantics>\\n <mrow>\\n <mi>n</mi>\\n <mo>≥</mo>\\n <mn>2661</mn>\\n </mrow>\\n <annotation> $n\\\\ge 2661$</annotation>\\n </semantics></math>.\",\"PeriodicalId\":0,\"journal\":{\"name\":\"\",\"volume\":null,\"pages\":null},\"PeriodicalIF\":0.0,\"publicationDate\":\"2024-02-28\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"\",\"FirstCategoryId\":\"100\",\"ListUrlMain\":\"https://onlinelibrary.wiley.com/doi/10.1002/jgt.23084\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"","FirstCategoryId":"100","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/jgt.23084","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

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摘要

给定一个平面图族，设和分别是所有无顶点平面图的最大尺寸和最大谱半径。设为 - 循环的副本的不相邻联盟，且为无长度限制的顶点不相邻循环族。Tait 和 Tobin 确定，是所有阶数足够大的平面图中的极值谱图，这意味着和的极值图都是。在本文中，我们首先确定了和，并描述了对于、和足够大的唯一极值图。其次，我们得到了和的精确值，从而解决了 Li 对的猜想。

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Extremal spectral results of planar graphs without vertex-disjoint cycles

Given a planar graph family $F$ , let $e x_{P} (n, F)$ and $s p e x_{P} (n, F)$ be the maximum size and maximum spectral radius over all $n$ -vertex $F$ -free planar graphs, respectively. Let $t C_{ℓ}$ be the disjoint union of $t$ copies of $ℓ$ -cycles, and $t C$ be the family of $t$ vertex-disjoint cycles without length restriction. Tait and Tobin determined that $K_{2} + P_{n - 2}$ is the extremal spectral graph among all planar graphs with sufficiently large order $n$ , which implies the extremal graphs of both $s p e x_{P} (n, t C_{ℓ})$ and $s p e x_{P} (n, t C)$ for $t \geq 3$ are $K_{2} + P_{n - 2}$ . In this paper, we first determine $s p e x_{P} (n, t C_{ℓ})$ and $s p e x_{P} (n, t C)$ and characterize the unique extremal graph for $1 \leq t \leq 2$ , $ℓ \geq 3$ and sufficiently large $n$ . Second, we obtain the exact values of $e x_{P} (n, 2 C_{4})$ and $e x_{P} (n, 2 C)$ , which solve a conjecture of Li for $n \geq 2661$ .

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