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Autori principali: Hasson, G., Støle-Hentschel, S., Vrećica, T., Shrira, V., Toledo, Y.
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.29581
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author Hasson, G.
Støle-Hentschel, S.
Vrećica, T.
Shrira, V.
Toledo, Y.
author_facet Hasson, G.
Støle-Hentschel, S.
Vrećica, T.
Shrira, V.
Toledo, Y.
contents The upper few meters of the ocean play a key role in air-sea exchanges of momentum and energy. Two important properties of this layer are the vertical shear of current velocity and the surface velocity. Vertical shear reflects momentum transfer, while the surface current velocity is essential for modeling transport processes such as pollutant dispersion. Direct measurements are challenging, and methods that provide continuous, real-time, and spatially extensive observations are highly desirable. This proof-of-concept study presents a new approach for estimating the radial component of surface velocity and the vertical shear of sea surface currents using a single-frequency high-frequency (HF) radar. The method is based on estimating the two first-order Bragg peaks in the backscattered radar spectrum which exhibit asymmetric frequency shifts in the presence of shear. The integral shear is retrieved from the frequency difference between the two peaks, while a new spectral processing technique enables correction of the surface velocity estimate for the effect of shear. The approach was tested using data from a WERA HF radar deployed off Ashkelon (Israel), and validated against simultaneous acoustic Doppler current profiler (ADCP) measurements at lower depths. The retrieved shear magnitudes and surface velocities show consistent trends with ADCP and wind observations, indicating that the method is applicable under strong-wind conditions for HF radar systems providing high-quality Doppler spectra.
format Preprint
id arxiv_https___arxiv_org_abs_2605_29581
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Retrieval of Ocean Surface Currents and Vertical Shear from HF Radar Observations
Hasson, G.
Støle-Hentschel, S.
Vrećica, T.
Shrira, V.
Toledo, Y.
Atmospheric and Oceanic Physics
The upper few meters of the ocean play a key role in air-sea exchanges of momentum and energy. Two important properties of this layer are the vertical shear of current velocity and the surface velocity. Vertical shear reflects momentum transfer, while the surface current velocity is essential for modeling transport processes such as pollutant dispersion. Direct measurements are challenging, and methods that provide continuous, real-time, and spatially extensive observations are highly desirable. This proof-of-concept study presents a new approach for estimating the radial component of surface velocity and the vertical shear of sea surface currents using a single-frequency high-frequency (HF) radar. The method is based on estimating the two first-order Bragg peaks in the backscattered radar spectrum which exhibit asymmetric frequency shifts in the presence of shear. The integral shear is retrieved from the frequency difference between the two peaks, while a new spectral processing technique enables correction of the surface velocity estimate for the effect of shear. The approach was tested using data from a WERA HF radar deployed off Ashkelon (Israel), and validated against simultaneous acoustic Doppler current profiler (ADCP) measurements at lower depths. The retrieved shear magnitudes and surface velocities show consistent trends with ADCP and wind observations, indicating that the method is applicable under strong-wind conditions for HF radar systems providing high-quality Doppler spectra.
title Retrieval of Ocean Surface Currents and Vertical Shear from HF Radar Observations
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2605.29581