Some remarks on the K p , 1 $\mathcal {K}_{p,1}$ theorem

Pub Date : 2024-07-04 DOI:10.1002/mana.202400004
Yeongrak Kim, Hyunsuk Moon, Euisung Park
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Let <span></span><math>\n <semantics>\n <mrow>\n <msub>\n <mi>β</mi>\n <mrow>\n <mi>p</mi>\n <mo>,</mo>\n <mi>q</mi>\n </mrow>\n </msub>\n <mrow>\n <mo>(</mo>\n <mi>X</mi>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation>$\\beta _{p,q} (X)$</annotation>\n </semantics></math> be the <span></span><math>\n <semantics>\n <mrow>\n <mo>(</mo>\n <mi>p</mi>\n <mo>,</mo>\n <mi>q</mi>\n <mo>)</mo>\n </mrow>\n <annotation>$(p,q)$</annotation>\n </semantics></math>th graded Betti number of <span></span><math>\n <semantics>\n <mi>X</mi>\n <annotation>$X$</annotation>\n </semantics></math>. Green proved the celebrating <span></span><math>\n <semantics>\n <msub>\n <mi>K</mi>\n <mrow>\n <mi>p</mi>\n <mo>,</mo>\n <mn>1</mn>\n </mrow>\n </msub>\n <annotation>$\\mathcal {K}_{p,1}$</annotation>\n </semantics></math>-theorem about the vanishing of <span></span><math>\n <semantics>\n <mrow>\n <msub>\n <mi>β</mi>\n <mrow>\n <mi>p</mi>\n <mo>,</mo>\n <mn>1</mn>\n </mrow>\n </msub>\n <mrow>\n <mo>(</mo>\n <mi>X</mi>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation>$\\beta _{p,1} (X)$</annotation>\n </semantics></math> for high values for <span></span><math>\n <semantics>\n <mi>p</mi>\n <annotation>$p$</annotation>\n </semantics></math> and potential examples of nonvanishing graded Betti numbers. Later, Nagel–Pitteloud and Brodmann–Schenzel classified varieties with nonvanishing <span></span><math>\n <semantics>\n <mrow>\n <msub>\n <mi>β</mi>\n <mrow>\n <mi>e</mi>\n <mo>−</mo>\n <mn>1</mn>\n <mo>,</mo>\n <mn>1</mn>\n </mrow>\n </msub>\n <mrow>\n <mo>(</mo>\n <mi>X</mi>\n <mo>)</mo>\n </mrow>\n </mrow>\n <annotation>$\\beta _{e-1,1}(X)$</annotation>\n </semantics></math>. 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They are exactly cones over smooth del Pezzo varieties, whose Picard number is <span></span><math>\n <semantics>\n <mrow>\n <mo>≤</mo>\n <mi>n</mi>\n <mo>−</mo>\n <mn>1</mn>\n </mrow>\n <annotation>$\\le n-1$</annotation>\n </semantics></math>.</p>","PeriodicalId":0,"journal":{"name":"","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2024-07-04","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/mana.202400004","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract

Let X $X$ be a non-degenerate projective irreducible variety of dimension n 1 $n \ge 1$ , degree d $d$ , and codimension e 2 $e \ge 2$ over an algebraically closed field K $\mathbb {K}$ of characteristic 0. Let β p , q ( X ) $\beta _{p,q} (X)$ be the ( p , q ) $(p,q)$ th graded Betti number of X $X$ . Green proved the celebrating K p , 1 $\mathcal {K}_{p,1}$ -theorem about the vanishing of β p , 1 ( X ) $\beta _{p,1} (X)$ for high values for p $p$ and potential examples of nonvanishing graded Betti numbers. Later, Nagel–Pitteloud and Brodmann–Schenzel classified varieties with nonvanishing β e 1 , 1 ( X ) $\beta _{e-1,1}(X)$ . It is clear that β e 1 , 1 ( X ) 0 $\beta _{e-1,1}(X) \ne 0$ when there is an ( n + 1 ) $(n+1)$ -dimensional variety of minimal degree containing X $X$ , however, this is not always the case as seen in the example of the triple Veronese surface in P 9 $\mathbb {P}^9$ .

In this paper, we completely classify varieties X $X$ with nonvanishing β e 1 , 1 ( X ) 0 $\beta _{e-1,1}(X) \ne 0$ such that X $X$ does not lie on an ( n + 1 ) $(n+1)$ -dimensional variety of minimal degree. They are exactly cones over smooth del Pezzo varieties, whose Picard number is n 1 $\le n-1$ .

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关于 Kp,1$mathcal {K}_{p,1}$ 定理的几点评论
设 是一个非退化的投影不还原变种,其维数 ,度数 ,和编码维数都在特征为 0 的代数闭域上。格林证明了关于分级贝蒂数高值消失的庆祝定理,以及非消失分级贝蒂数的潜在例子。后来,纳格尔-皮特鲁德(Nagel-Pitteloud)和布罗德曼-申泽尔(Brodmann-Schenzel)将具有非消失的 .很明显,当存在一个包含......的极小度的-维综时,情况并非总是如此,正如在......的三维维罗尼斯曲面的例子中所看到的那样。它们正好是光滑 del Pezzo varieties 上的圆锥,其皮卡德数为 .
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