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Multi-polarization radar backscatter signatures of internal waves at L-band

Title
Multi-polarization radar backscatter signatures of internal waves at L-band
Type
Article in International Scientific Journal
Year
2022
Authors
de Macedo, CR
(Author)
Other
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da Silva, JCB
(Author)
FCUP
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Buono, A
(Author)
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Migliaccio, M
(Author)
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Journal
Vol. 43
Pages: 1943-1959
ISSN: 0143-1161
Publisher: Taylor & Francis
Other information
Authenticus ID: P-00W-EHX
Abstract (EN): In this study, the scattering mechanisms associated to internal waves (IWs) are investigated at L-band. IWs represent key geophysical factors for sea-air heat exchange and play a paramount role in the biological primary production and in the understanding of the evolution of climate ecosystem. In addition, a better understanding of IWs microwave scattering mechanisms can improve the modeling capability and, therefore, can boost the development on advanced synthetic aperture radar (SAR)-based added-value products to mitigate the risk for offshore drilling operations and aquaculture activities associated to IWs. The analysis of L-band multi-polarization SAR scattering of IWs under the influence of surface current straining is performed using a meaningful full-polarimetric Advanced Land Observing Satellite Phased Array type L-band 1 SAR data set collected over IWs observed under different imaging and wind conditions. Time and space co-located ancillary information is also available. Experimental results demonstrate that the non-polarized scattering mechanisms constitute a significant contribution to the total IW backscattering, especially in the case of surface current gradients owing to IWs (about 48-57%). It is also found that the non-polarized scattering contribution associated to IW concentrates along the wave crests, i.e. it is at least 60% larger than the one observed along the wave troughs. In addition, considering the IW traveling directions relative to that of the wind, the non-polarized scattering contribution associated to IWs is more remarkable at upwind direction while it is less significant at down/crosswind directions. The non-polarized scattering mechanisms also calls for a modulation induced by IWs which is much more significant,i.e. at least three times, that the one that characterizes the polarized scattering mechanism.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 17
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