On Rough Frobenius-type Theorems and Their H\"older Estimates

Abstract

The thesis studies Frobenius-type theorems in non-smooth settings. We extend the definition of involutivity to non-Lipschitz subbundles using generalized functions. We prove the real Frobenius Theorem with sharp regularity on log-Lipschitz subbundles. We also develop a singular version of the Frobenius theorem on log-Lipschitz vector fields: if X1,…,Xm are log-Lipschitz vector fields such that [Xi,Xj]=Σk=1mcijkXk where cijk are the derivatives of log-Lipschitz functions, then for any point p there is a C1-manifold containing p such that X1,…,Xm span its tangent space. On the quantitative side, if cijk∈ Cα-1 where 1<α<2 then on each leaf where X1,…,Xm span the tangent spaces we can find a regular parameterization such that *X1,…,*Xm are Cα, and their Cα norm depend only on the diffeomorphic invariant quantities of X1,…,Xm. For a complex Frobenius structure there is a coordinate chart F that takes image in Rrt× Cmz× RN-r-2ms, such that the structure is locally spanned by F*∂t,F*∂z. When it has H\"older regularity α>1, we show that the coordinate chart F may be taken to be Cα, and the vector fields F*∂t,F*∂z are Cα-ε for every ε>0. We give an example to show that the regularity result for F*∂z is optimal. When a complex Frobenius structure S is Cα (12<α1) such that S+ S is log-Lipschitz, then for every ε>0 there is a C2α-1-ε homeomorphism (t,z,s) such that S is spanned by *∂t,*∂z∈ C2α-1-ε.