几何爱森斯坦数列 I：有限性定理

arXiv - MATH - Representation Theory Pub Date : 2024-09-11 DOI:arxiv-2409.07363

Linus Hamann, David Hansen, Peter Scholze

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摘要

我们发展了几何爱森斯坦级数和 $\ell$-adic sheaves on stacks of bundles on the Fargues-Fontainecurve 的常数项函数理论。特别是，我们证明了这些函数本质上的最优有限性定理，类似于抛物线引入和雅克特模块的通常有限性性质。我们还证明了伯恩斯坦第二邻接性定理的几何形式，推广了[Dat-Helm-Kurinczuk-Moss]中证明的经典结果及其对更一般系数环的再推广。作为应用，我们把$\mathrm{Bun}_G$上的舍弗类分解成簕杜鹃部分和爱森斯坦部分，并证明了$\mathrm{Bun}_G$的层之间的胶合函数在非常强的意义上是连续的。

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Geometric Eisenstein series I: finiteness theorems

We develop the theory of geometric Eisenstein series and constant term functors for $\ell$-adic sheaves on stacks of bundles on the Fargues-Fontaine curve. In particular, we prove essentially optimal finiteness theorems for these functors, analogous to the usual finiteness properties of parabolic inductions and Jacquet modules. We also prove a geometric form of Bernstein's second adjointness theorem, generalizing the classical result and its recent extension to more general coefficient rings proved in [Dat-Helm-Kurinczuk-Moss]. As applications, we decompose the category of sheaves on $\mathrm{Bun}_G$ into cuspidal and Eisenstein parts, and show that the gluing functors between strata of $\mathrm{Bun}_G$ are continuous in a very strong sense.

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arXiv - MATH - Representation Theory

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