Smooth invariant foliations without a bunching condition and Belitskii's C1 linearization for random dynamical systems

Abstract

Smooth linearization is one of the central themes in the study of dynamical systems. The classical Belitskii's C1 linearization theorem has been widely used in the investigation of dynamical behaviors such as bifurcations, mixing, and chaotic behaviors due to its minimal requirement of partial second order non-resonances and low regularity of systems. In this article, we revisit Belitskii's C1 linearization theorem by taking an approach based on smooth invariant foliations and study this problem for a larger class of dynamical systems ( random dynamical systems). We assumed that the linearized system satisfies the condition of Multiplicative Ergodic Theorem and the associated Lyapunov exponents satisfy Belitskii's partial second order non-resonant conditions. We first establish the existence of C1,β stable and unstable foliations without assuming the bunching condition for Lyapunov exponents, then prove a C1,β linearization theorem of Belitskii type for random dynamical systems. As a result, we show that the classical Belitskii's C1 linearization theorem for a C2 diffeomorphism F indeed holds without assuming all eigenspaces of the linear system DF(0) are invariant under the nonlinear system F, a requirement previously imposed by Belitskii in his proof.