Strong Modulation of Short Wind Waves and Ka-Band Radar Return Due to Internal Waves in the Presence of Surface Films. Theory and Experiment

Strong variability of Ka-band radar backscattering from short wind waves on the surface of water covered with surfactant films in the presence of internal waves (IW) was studied in wave tank experiments. It has been demonstrated that modulation of Ka-band radar return due to IW strongly depends on t...

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Published in:Remote sensing (Basel, Switzerland) Switzerland), 2021-07, Vol.13 (13), p.2462
Main Authors: Ermakov, Stanislav A., Sergievskaya, Irina A., Kapustin, Ivan A.
Format: Article
Language:English
Subjects:
Backscattering
Capillary waves
Experiments
Gravity waves
Internal waves
Ka-band radar backscattering
Laboratories
Modulation
Orbital resonances (celestial mechanics)
Phase velocity
Radar
radar modulation transfer function
Remote sensing
Resonance
short wind waves
surfactant films
Surfactants
Theoretical analysis
Velocity
Wave tanks
Waves
Wind
Wind waves
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description Strong variability of Ka-band radar backscattering from short wind waves on the surface of water covered with surfactant films in the presence of internal waves (IW) was studied in wave tank experiments. It has been demonstrated that modulation of Ka-band radar return due to IW strongly depends on the relationship between the phase velocity of IW and the velocity of drifting surfactant films. An effect of the strong increase in surfactant concentration was revealed in convergent zones, associated with IW orbital velocities in the presence of a “resonance” surface steady current, the velocity of which was close to the IW phase velocity. A phenomenological model of suppression and modulations in the spectrum of small-scale wind waves due to films and IW was elaborated. It has been shown that backscatter modulation could not be explained by the modulation of free (linear) millimeter-scale Bragg waves, but was associated with the modulation of bound (parasitic) capillary ripples generated by longer, cm–dm-scale waves—a “cascade” modulation mechanism. Theoretical analysis based on the developed model was found to be consistent with experiments. Field observations which qualitatively illustrated the effect of strong modulation of Ka-band radar backscatter due to IW in the presence of resonance drift of surfactant films are presented.
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subjects Backscattering
Capillary waves
Experiments
Gravity waves
Internal waves
Ka-band radar backscattering
Laboratories
Modulation
Orbital resonances (celestial mechanics)
Phase velocity
Radar
radar modulation transfer function
Remote sensing
Resonance
short wind waves
surfactant films
Surfactants
Theoretical analysis
Velocity
Wave tanks
Waves
Wind
Wind waves
title Strong Modulation of Short Wind Waves and Ka-Band Radar Return Due to Internal Waves in the Presence of Surface Films. Theory and Experiment
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