On fake linear cycles inside Fermat varieties

IF 0.9 1区数学 Q2 MATHEMATICS

Algebra & Number Theory Pub Date : 2023-09-19 DOI:10.2140/ant.2023.17.1847

Jorge Duque Franco, Roberto Villaflor Loyola

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引用次数: 3

Abstract

We introduce a new class of Hodge cycles with nonreduced associated Hodge loci; we call them fake linear cycles. We characterize them for all Fermat varieties and show that they exist only for degrees $d = 3, 4, 6$ , where there are infinitely many in the space of Hodge cycles. These cycles are pathological in the sense that the Zariski tangent space of their associated Hodge locus is of maximal dimension, contrary to a conjecture of Movasati. They provide examples of algebraic cycles not generated by their periods in the sense of Movasati and Sertöz (2021). To study them we compute their Galois action in cohomology and their second-order invariant of the IVHS. We conclude that for any degree $d \geq 2 + \frac{6}{n}$ , the minimal codimension component of the Hodge locus passing through the Fermat variety is the one parametrizing hypersurfaces containing linear subvarieties of dimension $\frac{n}{2}$ , extending results of Green, Voisin, Otwinowska and the Villaflor Loyola.

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关于Fermat品种内部的伪线性循环

我们引入了一类新的具有非还原关联Hodge基因座的Hodge环；我们称之为伪线性循环。我们为所有Fermat变种刻画了它们的特征，并证明它们只存在于d=3,4,6度，其中在Hodge循环的空间中有无限多个。这些循环是病态的，因为它们相关的Hodge轨迹的Zariski切空间是最大维的，这与Movasati的猜想相反。它们提供了Movasati和Sertöz（2021）意义上的代数循环的例子，这些代数循环不是由它们的周期生成的。为了研究它们，我们计算了它们在上同调中的Galois作用和IVHS的二阶不变量。我们得出结论，对于任意阶d≥2+6n，通过Fermat变种的Hodge轨迹的最小余维分量是一个参数化包含维数为n2的线性子变种的超曲面，扩展了Green、Voisin、Otwinowska和Villaflor-Loyola的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Algebra & Number Theory MATHEMATICS-

CiteScore

1.80

自引率

7.70%

发文量

审稿时长

6-12 weeks

期刊介绍： ANT’s inclusive definition of algebra and number theory allows it to print research covering a wide range of subtopics, including algebraic and arithmetic geometry. ANT publishes high-quality articles of interest to a broad readership, at a level surpassing all but the top four or five mathematics journals. It exists in both print and electronic forms. The policies of ANT are set by the editorial board — a group of working mathematicians — rather than by a profit-oriented company, so they will remain friendly to mathematicians'' interests. In particular, they will promote broad dissemination, easy electronic access, and permissive use of content to the greatest extent compatible with survival of the journal. All electronic content becomes free and open access 5 years after publication.