Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions

In this work we perform numerical experiments using the MITgcm to simulate the interaction of a mode-one internal tide with barotropic and baroclinic mode-one mesoscale eddies. We also employ the ray tracing equations to track mode-one and mode-two internal tides through barotropic eddies. Results s...

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Bibliographic Details
Main Author: Dunphy, Michael
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: University of Waterloo 2014
Subjects:
internal tide
mesoscale eddy
energy budget
numerical model
Applied Mathematics
Southern Ocean
Online Access:http://hdl.handle.net/10012/8865
id ftunivwaterloo:oai:uwspace.uwaterloo.ca:10012/8865
record_format openpolar
spelling ftunivwaterloo:oai:uwspace.uwaterloo.ca:10012/8865 2023-05-15T18:25:56+02:00 Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions Dunphy, Michael 2014 http://hdl.handle.net/10012/8865 en eng University of Waterloo http://hdl.handle.net/10012/8865 internal tide mesoscale eddy energy budget numerical model Applied Mathematics Doctoral Thesis 2014 ftunivwaterloo 2022-06-18T23:00:13Z In this work we perform numerical experiments using the MITgcm to simulate the interaction of a mode-one internal tide with barotropic and baroclinic mode-one mesoscale eddies. We also employ the ray tracing equations to track mode-one and mode-two internal tides through barotropic eddies. Results show that barotropic eddies interact with a mode-one internal tide to produce beam-like regions of increased/decreased energy flux which we term hot/cold spots. The energy flux magnitude in the hot spots can reach twice that of the incident energy flux, while in the cold spots it can reach nearly zero. The interaction between a mode-one internal tide and mode-one baroclinic eddies results in the production of internal tides at modes two and higher. The generated waves emanate from the eddy in beam-like patterns. A novel energy budget technique is developed to measure the generation rate at each mode, finding that the energy supplied to the higher modes is extracted from the incident mode-one wave, and that the eddy does not exchange net energy with the waves. For the parameter regime explored here, up to 13 percent of the incident energy is scattered to the higher modes for eddies of diameter 120 km. The implication for the open ocean is an increase in vertical mixing local to mesoscale eddies, at the expense of reduced vertical mixing at remote coastlines. The vortex Rossby numbers are order one, corresponding to energetic mesoscale eddies found primarily in western boundary current extensions and in the southern ocean. We expect that these interactions will frequently form in locations where these phenomena coexist. Ray tracing mode-one and two internal tides through barotropic eddies yielded four classes of ray paths, two of which are bounded by caustics. We use a wave field reconstruction technique to synthesise MITgcm outputs for a suite of eddies ranging from mesoscale to basin scale, demonstrating the improvement of the synthesis as eddy size increases. While the results are poor for low-mode waves interacting ... Doctoral or Postdoctoral Thesis Southern Ocean University of Waterloo, Canada: Institutional Repository Southern Ocean
institution Open Polar
collection University of Waterloo, Canada: Institutional Repository
op_collection_id ftunivwaterloo
language English
topic internal tide
mesoscale eddy
energy budget
numerical model
Applied Mathematics
spellingShingle internal tide
mesoscale eddy
energy budget
numerical model
Applied Mathematics
Dunphy, Michael
Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions
topic_facet internal tide
mesoscale eddy
energy budget
numerical model
Applied Mathematics
description In this work we perform numerical experiments using the MITgcm to simulate the interaction of a mode-one internal tide with barotropic and baroclinic mode-one mesoscale eddies. We also employ the ray tracing equations to track mode-one and mode-two internal tides through barotropic eddies. Results show that barotropic eddies interact with a mode-one internal tide to produce beam-like regions of increased/decreased energy flux which we term hot/cold spots. The energy flux magnitude in the hot spots can reach twice that of the incident energy flux, while in the cold spots it can reach nearly zero. The interaction between a mode-one internal tide and mode-one baroclinic eddies results in the production of internal tides at modes two and higher. The generated waves emanate from the eddy in beam-like patterns. A novel energy budget technique is developed to measure the generation rate at each mode, finding that the energy supplied to the higher modes is extracted from the incident mode-one wave, and that the eddy does not exchange net energy with the waves. For the parameter regime explored here, up to 13 percent of the incident energy is scattered to the higher modes for eddies of diameter 120 km. The implication for the open ocean is an increase in vertical mixing local to mesoscale eddies, at the expense of reduced vertical mixing at remote coastlines. The vortex Rossby numbers are order one, corresponding to energetic mesoscale eddies found primarily in western boundary current extensions and in the southern ocean. We expect that these interactions will frequently form in locations where these phenomena coexist. Ray tracing mode-one and two internal tides through barotropic eddies yielded four classes of ray paths, two of which are bounded by caustics. We use a wave field reconstruction technique to synthesise MITgcm outputs for a suite of eddies ranging from mesoscale to basin scale, demonstrating the improvement of the synthesis as eddy size increases. While the results are poor for low-mode waves interacting ...
format Doctoral or Postdoctoral Thesis
author Dunphy, Michael
author_facet Dunphy, Michael
author_sort Dunphy, Michael
title Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions
title_short Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions
title_full Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions
title_fullStr Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions
title_full_unstemmed Focusing and Vertical Mode Scattering of the First Mode Internal Tide via Mesoscale Eddy Interactions
title_sort focusing and vertical mode scattering of the first mode internal tide via mesoscale eddy interactions
publisher University of Waterloo
publishDate 2014
url http://hdl.handle.net/10012/8865
geographic Southern Ocean
geographic_facet Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_relation http://hdl.handle.net/10012/8865
_version_ 1766207666269454336

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