Journal of Nonlinear Mathematical Physics

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Volume 22, Issue 4, November 2015, Pages 475 - 493

An ocean undercurrent, a thermocline, a free surface, with waves: a problem in classical fluid mechanics

Authors
R. S. Johnson
School of Mathematics & Statistics, Newcastle University Newcastle upon Tyne, NE1 7RU, UK.robin.johnson@newcastle.ac.uk">robin.johnson@newcastle.ac.uk
Received 30 June 2015, Accepted 1 October 2015, Available Online 6 January 2021.
DOI
10.1080/14029251.2015.1113042How to use a DOI?
Keywords
Ocean undercurrent; nonlinearity; waves; asymptotic expansions
Abstract

We describe a problem that can be tackled more-or-less routinely using the ideas of classical fluid mechanics, but it is a complex flow and even the linearised problem involves considerable algebraic complexity. The presentation here emphasises the approach that we adopt in order to formulate an accessible model of such a flow. The physical background is carefully described: the Equatorial Undercurrent, a particular phenomenon of the Pacific Ocean, the thermocline and the waves on both the free surface and on the thermocline. One of the results of this careful approach, coupled with a solution of the linearised problem for arbitrary wave numbers, is that we are able to provide well-grounded explanations for many of the fundamental processes that are relevant, and observed, in this region of the oceans; the result is a successful application of elementary principles. In the context of this system, we can describe the various types of wave dynamics, depending on wavelength, and also the differences between eastward and westward propagation. It is gratifying that the results of such a simple theory correspond closely to the observations reported in the literature. Of more interest, perhaps, from the theoretical-fluids viewpoint, is that the development leads directly to the prediction of critical layers and to a procedure for their analysis, which we outline here (and critical layers and their associated flows have been observed in the Pacific Ocean). Further, other possible rôles of nonlinearity are immediately accessible, such as wave evolution, for which we provide only an introduction, but this is sufficient to hint at tantalising prospects for further work.

Copyright
© 2015 The Authors. Published by Atlantis Press and Taylor & Francis
Open Access
This is an open access article distributed under the CC BY-NC 4.0 license (http://creativecommons.org/licenses/by-nc/4.0/).

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Journal
Journal of Nonlinear Mathematical Physics
Volume-Issue
22 - 4
Pages
475 - 493
Publication Date
2021/01/06
ISSN (Online)
1776-0852
ISSN (Print)
1402-9251
DOI
10.1080/14029251.2015.1113042How to use a DOI?
Copyright
© 2015 The Authors. Published by Atlantis Press and Taylor & Francis
Open Access
This is an open access article distributed under the CC BY-NC 4.0 license (http://creativecommons.org/licenses/by-nc/4.0/).

Cite this article

risenwbib
TY  - JOUR
AU  - R. S. Johnson
PY  - 2021
DA  - 2021/01/06
TI  - An ocean undercurrent, a thermocline, a free surface, with waves: a problem in classical fluid mechanics
JO  - Journal of Nonlinear Mathematical Physics
SP  - 475
EP  - 493
VL  - 22
IS  - 4
SN  - 1776-0852
UR  - https://doi.org/10.1080/14029251.2015.1113042
DO  - 10.1080/14029251.2015.1113042
ID  - Johnson2021
ER  -