Breuil's Lattice Conjecture for GL2(K)

Abstract

We prove Breuil's lattice conjecture for higher Hodge-Tate weights in the case of GL2(K) where K is an unramified extension of Qp. More precisely, under some genericity conditions, we show that the lattice inside a locally algebraic type induced by the completed cohomology of a U(2)-arithmetic manifold depends only on the Galois representation at places above p for arbitrary Hodge-Tate weights, which are small relative to p. We further prove that the patched modules of all lattices inside the locally algebraic types with irreducible cosocle are cyclic. One key input of the paper is a structure theorem for mod p representations of GL2(OK), which are residually multiplicity free and of finite length. Another input is an explicit computation of universal framed Galois deformation rings, which parameterize potentially crystalline lifts with fixed tame inertial types and higher Hodge-Tate weights.