Differential Galois cohomology and parameterized Picard-Vessiot extensions

Abstract

Assuming that the differential field (K,δ) is differentially large, in the sense of Le\'on S\'anchez and Tressl, and "bounded" as a field, we prove that for any linear differential algebraic group G over K, the differential Galois (or constrained) cohomology set H1δ(K,G) is finite. This applies, among other things, to closed ordered differential fields K, in the sense of Singer, and to closed p-adic differential fields in the sense of Tressl. As an application, we prove a general existence result for parameterized Picard-Vessiot extensions within certain families of fields; if (K,δx,δt) is a field with two commuting derivations, and δx Z = AZ is a parameterized linear differential equation over K, and (Kδx,δt) is "differentially large" and Kδx is bounded, and (Kδx, δt) is existentially closed in (K,δt), then there is a PPV extension (L,δx,δt) of K for the equation such that (Kδx,δt) is existentially closed in (L,δt). For instance, it follows that if the δx-constants of a formally real differential field (K,δx,δt) is a closed ordered δt-field, then for any homogeneous linear δx-equation over K there exists a PPV extension that is formally real. Similar observations apply to p-adic fields.