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Multiplicative ergodic theorem for a non-irreducible random dynamical system

Abstract

We study the asymptotic properties of the trajectories of a discrete-time random dynamical system in an infinite-dimensional Hilbert space. Under some natural assumptions on the model, we establish a multiplica-tive ergodic theorem with an exponential rate of convergence. The assumptions are satisfied for a large class of parabolic PDEs, including the 2D Navier–Stokes and complex Ginzburg–Landau equations perturbed by a non-degenerate bounded random kick force. As a consequence of this er-godic theorem, we derive some new results on the statistical properties of the trajectories of the underlying random dynamical system. In particular , we obtain large deviations principle for the occupation measures and the analyticity of the pressure function in a setting where the system is not irreducible. The proof relies on a refined version of the uniform Feller property combined with some contraction and bootstrap arguments.
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Dates and versions

hal-01695046 , version 1 (28-01-2018)
hal-01695046 , version 2 (20-01-2020)

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Cite

Davit Martirosyan, Vahagn Nersesyan. Multiplicative ergodic theorem for a non-irreducible random dynamical system. 2018. ⟨hal-01695046v1⟩
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