A squeezing property and its applications to a description of long-time behaviour in the three-dimensional viscous primitive equations

Igor Chueshov

doi:10.1017/S0308210512001953

Abstract

We consider the three-dimensional viscous primitive equations with periodic boundary conditions. These equations arise in the study of ocean dynamics and generate a dynamical system in a Sobolev H1-type space. Our main result establishes the so-called squeezing property in the Ladyzhenskaya form for this system. As a consequence of this property we prove the finiteness of the fractal dimension of the corresponding global attractor, the existence of a finite number of determining modes and the ergodicity of a related random kick model. All these results provide new information concerning the long-time dynamics of oceanic motion.

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A squeezing property and its applications to a description of long-time behaviour in the three-dimensional viscous primitive equations

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

A squeezing property and its applications to a description of long-time behaviour in the three-dimensional viscous primitive equations

Abstract

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