Local-global compatibility for regular algebraic cuspidal automorphic representations when

IF 1.2 2区数学 Q1 MATHEMATICS Forum of Mathematics Sigma Pub Date : 2024-02-12 DOI:10.1017/fms.2024.7

Ila Varma

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Abstract

We prove the compatibility of local and global Langlands correspondences for

$\operatorname {GL}_n$

up to semisimplification for the Galois representations constructed by Harris-Lan-Taylor-Thorne [10] and Scholze [18]. More precisely, let

$r_p(\pi )$

denote an n-dimensional p-adic representation of the Galois group of a CM field F attached to a regular algebraic cuspidal automorphic representation

$\pi $

$\operatorname {GL}_n(\mathbb {A}_F)$

. We show that the restriction of

$r_p(\pi )$

to the decomposition group of a place

$v\nmid p$

of F corresponds up to semisimplification to

$\operatorname {rec}(\pi _v)$

, the image of

$\pi _v$

under the local Langlands correspondence. Furthermore, we can show that the monodromy of the associated Weil-Deligne representation of

$\left .r_p(\pi )\right |{}_{\operatorname {Gal}_{F_v}}$

is ‘more nilpotent’ than the monodromy of

$\operatorname {rec}(\pi _v)$

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正则代数尖顶自动表征的局部-全局相容性，当

我们证明了由 Harris-Lan-Taylor-Thorne [10] 和 Scholze [18] 构建的伽罗瓦表示的 $\operatorname {GL}_n$ 的局部和全局朗兰兹对应关系在半简化之前的兼容性。更确切地说，让 $r_p(\pi )$ 表示 CM 场 F 的伽罗瓦群的 n 维 p-adic 表示，它连接到 $\operatorname {GL}_n(\mathbb {A}_F)$ 的正则代数尖顶自形表示 $\pi $ 上。我们证明 $r_p(\pi )$ 对 F 的一个位置 $v\nmid p$ 的分解群的限制在半简化之前对应于 $\operatorname {rec}(\pi _v)$ ，即本地朗兰兹对应下 $\pi _v$ 的像。此外，我们可以证明$\left .r_p(\pi )\right |{}_{operatorname{Gal}_{F_v}}$的相关Weil-Deligne表示的单旋转比$\operatorname {rec}(\pi _v)$的单旋转 "更无势"。

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来源期刊

Forum of Mathematics Sigma Mathematics-Statistics and Probability

CiteScore

1.90

自引率

5.90%

发文量

审稿时长

40 weeks

期刊介绍： Forum of Mathematics, Sigma is the open access alternative to the leading specialist mathematics journals. Editorial decisions are made by dedicated clusters of editors concentrated in the following areas: foundations of mathematics, discrete mathematics, algebra, number theory, algebraic and complex geometry, differential geometry and geometric analysis, topology, analysis, probability, differential equations, computational mathematics, applied analysis, mathematical physics, and theoretical computer science. This classification exists to aid the peer review process. Contributions which do not neatly fit within these categories are still welcome. Forum of Mathematics, Pi and Forum of Mathematics, Sigma are an exciting new development in journal publishing. Together they offer fully open access publication combined with peer-review standards set by an international editorial board of the highest calibre, and all backed by Cambridge University Press and our commitment to quality. Strong research papers from all parts of pure mathematics and related areas will be welcomed. All published papers will be free online to readers in perpetuity.

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