Hamiltonian Approach to the Modeling of Internal Geophysical Waves with Vorticity

Authors

Alan Compelli, Technological University DublinFollow

Document Type

Article

Rights

This item is available under a Creative Commons License for non-commercial use only

Disciplines

Applied mathematics

Publication Details

accepted for publication in Monatshefte für Mathematik (Springer)

Abstract

We examine a simplified model of internal geophysical waves in a rotational 2-dimensional water-wave system, under the influence of Coriolis forces and with gravitationally induced waves. The system consists of a lower medium, bound underneath by an impermeable flat bed, and an upper lid. The 2 media have a free common interface. Both media have constant density and constant (non-zero) vorticity. By examining the governing equations of the system we calculate the Hamiltonian of the system in terms of its conjugate variables and perform a variable transformation to show that it has canonical Hamiltonian structure. We then linearize the system, determine the equations of motion of the linearized system and calculate the dispersion relation. Finally, limiting cases are examined to recover irrotational and single medium systems as well as an infinite 2 media system.

DOI

http://doi.org10.21427/29ra-c897

Recommended Citation

Compelli, A. (2014). Hamiltonian Approach to the Modelling of Internal Geophysical Waves with Vorticity. Accepted for Publication in Monatshefte für Mathematik doi: 10.21427/29ra-c897