Enstrophy and Ergodicity of Gravity Currents
Analysis of PDEs
2007-05-23 v1 Dynamical Systems
Abstract
We study a coupled deterministic system of vorticity evolution and salinity transport equations, with spatially correlated white noise on the boundary. This system may be considered as a model for gravity currents in oceanic fluids. The noise is due to uncertainty in salinity flux on fluid boundary. After transforming this system into a random dynamical system, we first obtain an asymptotic estimate of enstrophy evolution, and then show that the system is ergodic under suitable conditions on mean salinity input flux on the boundary, Prandtl number and covariance of the noise.
Keywords
Cite
@article{arxiv.math/0408091,
title = {Enstrophy and Ergodicity of Gravity Currents},
author = {Vena Pearl Bongolan-Walsh and Jinqiao Duan and Hongjun Gao and Tamay Ozgokmen and Paul Fischer and Traian Iliescu},
journal= {arXiv preprint arXiv:math/0408091},
year = {2007}
}