Generalizes Breuil-Hellmann-Schraen theorem to show smoothness and normality of trianguline variety for split reductive groups and proves crystallinity criterion for G-structured (ϕ,Γ_K)-modules.
Sur la densit\'e des repr\'esentations cristallines du groupe de Galois absolu de Q_p
1 Pith paper cite this work. Polarity classification is still indexing.
abstract
Let X_d be the p-adic analytic space classifying the d-dimensional (semisimple) p-adic Galois representations of the absolute Galois group of Q_p. We show that the crystalline representations are Zarski-dense in many irreducible components of X_d, including the components made of residually irreducible representations. This extends to any dimension d previous results of Colmez and Kisin for d = 2. For this we construct an analogue of the infinite fern of Gouv\^ea-Mazur in this context, based on a study of analytic families of trianguline (phi,Gamma)-modules over the Robba ring. We show in particular the existence of a universal family of (framed, regular) trianguline (phi,Gamma)-modules, as well as the density of the crystalline (phi,Gamma)-modules in this family. These results may be viewed as a local analogue of the theory of p-adic families of finite slope automorphic forms, they are new already in dimension 2. The technical heart of the paper is a collection of results about the Fontaine-Herr cohomology of families of trianguline (phi,Gamma)-modules.
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math.NT 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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The trianguline variety for reductive groups
Generalizes Breuil-Hellmann-Schraen theorem to show smoothness and normality of trianguline variety for split reductive groups and proves crystallinity criterion for G-structured (ϕ,Γ_K)-modules.