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Autores principales: Violante-Carvalho, Nelson, de Paula, Thiago, Calado, Leandro, Santos, Felipe Marques dos, Carvalho, Luiz Mariano, Santos, Andre Luiz Cordeiro dos, Arruda, Wilton Z., Farina, Leandro
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2511.12711
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author Violante-Carvalho, Nelson
de Paula, Thiago
Calado, Leandro
Santos, Felipe Marques dos
Carvalho, Luiz Mariano
Santos, Andre Luiz Cordeiro dos
Arruda, Wilton Z.
Farina, Leandro
author_facet Violante-Carvalho, Nelson
de Paula, Thiago
Calado, Leandro
Santos, Felipe Marques dos
Carvalho, Luiz Mariano
Santos, Andre Luiz Cordeiro dos
Arruda, Wilton Z.
Farina, Leandro
contents Ocean eddy dipoles are among the most common mesoscale features and may be ubiquitous across the global oceans. However, wave-current interactions in their proximity have not been extensively studied. Here we examine the impact of surface currents on the wave field near an ocean eddy dipole. Using the WW3 wave model, we conducted idealized numerical simulations to assess the influence of different configurations on the spatial variability of Significant Wave Height ($H_s$). Additionally, a two-month hindcast of a strong dipole event in the Southwestern Atlantic Ocean was performed using three distinct surface current products: SSalto/Duacs, HYCOM NCODA and GlobCurrent. Among these, HYCOM, which incorporates ageostrophic effects, provided a more detailed representation of oceanic energy compared to GlobCurrent and SSalto/Duacs, which primarily reflect geostrophic components. The hindcast assessment employed denoised altimeter-derived $H_s$ data, with a spatial resolution of approximately 6~km. The greatest increase in wave energy occurs in the region between the peak values of positive and negative vorticity, where the opposing surface currents reach their maximum intensity. Therefore, dipoles act as converging lenses for surface waves, channeling their refraction towards the central jet. Despite its poorer spatial and temporal resolutions, SSalto-Duacs surface current data provides more reliable $H_s$ fields, in the study region where geostrophic dynamics are expected to be significant or even dominant. HYCOM captures a broader range of dynamical processes, essential for accurately representing the total energy, though discrepancies with SSalto/Duacs data may arise from assimilation inaccuracies and model limitations.
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spellingShingle Current effects on wind generated waves near an Ocean Eddy Dipole
Violante-Carvalho, Nelson
de Paula, Thiago
Calado, Leandro
Santos, Felipe Marques dos
Carvalho, Luiz Mariano
Santos, Andre Luiz Cordeiro dos
Arruda, Wilton Z.
Farina, Leandro
Fluid Dynamics
Ocean eddy dipoles are among the most common mesoscale features and may be ubiquitous across the global oceans. However, wave-current interactions in their proximity have not been extensively studied. Here we examine the impact of surface currents on the wave field near an ocean eddy dipole. Using the WW3 wave model, we conducted idealized numerical simulations to assess the influence of different configurations on the spatial variability of Significant Wave Height ($H_s$). Additionally, a two-month hindcast of a strong dipole event in the Southwestern Atlantic Ocean was performed using three distinct surface current products: SSalto/Duacs, HYCOM NCODA and GlobCurrent. Among these, HYCOM, which incorporates ageostrophic effects, provided a more detailed representation of oceanic energy compared to GlobCurrent and SSalto/Duacs, which primarily reflect geostrophic components. The hindcast assessment employed denoised altimeter-derived $H_s$ data, with a spatial resolution of approximately 6~km. The greatest increase in wave energy occurs in the region between the peak values of positive and negative vorticity, where the opposing surface currents reach their maximum intensity. Therefore, dipoles act as converging lenses for surface waves, channeling their refraction towards the central jet. Despite its poorer spatial and temporal resolutions, SSalto-Duacs surface current data provides more reliable $H_s$ fields, in the study region where geostrophic dynamics are expected to be significant or even dominant. HYCOM captures a broader range of dynamical processes, essential for accurately representing the total energy, though discrepancies with SSalto/Duacs data may arise from assimilation inaccuracies and model limitations.
title Current effects on wind generated waves near an Ocean Eddy Dipole
topic Fluid Dynamics
url https://arxiv.org/abs/2511.12711