Convergence to the Time Average by Stochastic Regularization

Convergence to the Time Average by Stochastic Regularization

In Ergodic Theory it is natural to consider the pointwise convergence of finite time averages of functions with respect to the flow of dynamical systems. Since the pointwise convergence is too weak for applications to Hamiltonian Perturbation Theory, requiring differentiability, we first introduce r...

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Veröffentlicht in:Journal of nonlinear mathematical physics 2013-03, Vol.20 (1), p.9-27
Hauptverfasser: Bernardi, Olga, Cardin, Franco, Guzzo, Massimiliano
Format: Artikel
Sprache:eng
Schlagworte:
approximated first integrals
Convergence
Ergodic Theory
Hamiltonian Perturbation Theory
Perturbation theory
Regularization
Research Article
Stochastic regularization techniques
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Zusammenfassung:In Ergodic Theory it is natural to consider the pointwise convergence of finite time averages of functions with respect to the flow of dynamical systems. Since the pointwise convergence is too weak for applications to Hamiltonian Perturbation Theory, requiring differentiability, we first introduce regularized averages obtained through a stochastic perturbation of an integrable Hamiltonian flow, and then we provide detailed estimates. In particular, for a special vanishing limit of the stochastic perturbation, we obtain convergence even in a Sobolev norm taking into account the derivatives.
ISSN:1402-9251
1776-0852
1776-0852
DOI:10.1080/14029251.2013.792465