Logarithmic Riemann–Hilbert correspondences for rigid varieties

Diao, Hansheng; Lan, Kai-Wen; Liu, Ruochuan; Zhu, Xinwen

doi:10.1090/jams/1002

Logarithmic Riemann–Hilbert correspondences for rigid varieties
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by Hansheng Diao, Kai-Wen Lan, Ruochuan Liu and Xinwen Zhu

J. Amer. Math. Soc. 36 (2023), 483-562

DOI: https://doi.org/10.1090/jams/1002

Published electronically: June 24, 2022

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Abstract:

On any smooth algebraic variety over a $p$-adic local field, we construct a tensor functor from the category of de Rham $p$-adic étale local systems to the category of filtered algebraic vector bundles with integrable connections satisfying the Griffiths transversality, which we view as a $p$-adic analogue of Deligne’s classical Riemann–Hilbert correspondence. A crucial step is to construct canonical extensions of the desired connections to suitable compactifications of the algebraic variety with logarithmic poles along the boundary, in a precise sense characterized by the eigenvalues of residues; hence the title of the paper. As an application, we show that this $p$-adic Riemann–Hilbert functor is compatible with the classical one over all Shimura varieties, for local systems attached to representations of the associated reductive algebraic groups.

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