The goal of this thesis project is to study the Cp-semilinear representation given by the p-Tate module of an abelian variety X over a local field K, following Fontaine’s paper “Formes différentielles et modules de Tate des variétés abéliennes sur les corps locaux”. The main aim is to prove the Hodge-Tate decomposition for Tp(X)⊗Cp in terms of the Lie algebra of X and Xv. Thus, in the first chapter we compute the continuous cohomology groups of Cp(n) with respect to the absolute Galois group of K. In the second chapter, Fontaine’s work analyse the module of Kähler differentials Ω of the extension using an integration of invariant differentials along elements of the Tate module of a Zp-module Γ. Finally, in the third chapter we prove Tate-Raynaud theorem using the identification Vp(Ω) = Cp(1) and then we derive the Hodge-Tate decomposition.

The goal of this thesis project is to study the Cp-semilinear representation given by the p-Tate module of an abelian variety X over a local field K, following Fontaine’s paper “Formes différentielles et modules de Tate des variétés abéliennes sur les corps locaux”. The main aim is to prove the Hodge-Tate decomposition for Tp(X)⊗Cp in terms of the Lie algebra of X and Xv. Thus, in the first chapter we compute the continuous cohomology groups of Cp(n) with respect to the absolute Galois group of K. In the second chapter, Fontaine’s work analyse the module of Kähler differentials Ω of the extension using an integration of invariant differentials along elements of the Tate module of a Zp-module Γ. Finally, in the third chapter we prove Tate-Raynaud theorem using the identification Vp(Ω) = Cp(1) and then we derive the Hodge-Tate decomposition.

Hodge-Tate decomposition for p-adic abelian varieties with good reduction

NAVONE, GIORGIO
2021/2022

Abstract

The goal of this thesis project is to study the Cp-semilinear representation given by the p-Tate module of an abelian variety X over a local field K, following Fontaine’s paper “Formes différentielles et modules de Tate des variétés abéliennes sur les corps locaux”. The main aim is to prove the Hodge-Tate decomposition for Tp(X)⊗Cp in terms of the Lie algebra of X and Xv. Thus, in the first chapter we compute the continuous cohomology groups of Cp(n) with respect to the absolute Galois group of K. In the second chapter, Fontaine’s work analyse the module of Kähler differentials Ω of the extension using an integration of invariant differentials along elements of the Tate module of a Zp-module Γ. Finally, in the third chapter we prove Tate-Raynaud theorem using the identification Vp(Ω) = Cp(1) and then we derive the Hodge-Tate decomposition.
2021
Hodge-Tate decomposition for p-adic abelian varieties with good reduction
The goal of this thesis project is to study the Cp-semilinear representation given by the p-Tate module of an abelian variety X over a local field K, following Fontaine’s paper “Formes différentielles et modules de Tate des variétés abéliennes sur les corps locaux”. The main aim is to prove the Hodge-Tate decomposition for Tp(X)⊗Cp in terms of the Lie algebra of X and Xv. Thus, in the first chapter we compute the continuous cohomology groups of Cp(n) with respect to the absolute Galois group of K. In the second chapter, Fontaine’s work analyse the module of Kähler differentials Ω of the extension using an integration of invariant differentials along elements of the Tate module of a Zp-module Γ. Finally, in the third chapter we prove Tate-Raynaud theorem using the identification Vp(Ω) = Cp(1) and then we derive the Hodge-Tate decomposition.
Tate Module
Abelian varieties
Galois cohomology
Hodge-Tate
Local fields
Lauree magistrali
File in questo prodotto:
File Dimensione Formato  
Tesi Navone Padova.pdf

accesso aperto

Dimensione 1.17 MB
Formato Adobe PDF
Visualizza/Apri
1.17 MB Adobe PDF Visualizza/Apri

The text of this website © Università degli studi di Padova. Full Text are published under a non-exclusive license. Metadata are under a CC0 License

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/33101