Flat Convergence of Pushforwards of Rectifiable Currents Under C0-Diffeomorphism Limits
Abstract
We study the action on currents and differential forms on compact Riemannian manifolds under C0-limits of diffeomorphisms. Using tools from geometric analysis, measure theory, and homotopy theory, we establish several convergence theorems. We give conditions under which pullbacks of differential forms by a sequence of smooth diffeomorphisms converge uniformly (in the C0 norm), and pushforwards of currents by smooth diffeomorphisms exhibit weak-* convergence. We prove that pushforwards of rectifiable currents are convergent in the flat norm, a property of particular interest in the study of singular geometric objects. These stability findings offer tools for the study of geometric structures, including applications to the stability of groups of symplectomorphisms, cosymplectomorphisms, volume-preserving transformations, and contact transformations under C0 perturbations. We highlight applicability in measure theory and dynamical systems.
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