Title :
Wind-speed dependence of small-grazing-angle microwave backscatter from sea surfaces
Author :
Lee, P.H.Y. ; Barter, J.D. ; Caponi, E. ; Caponi, M. ; Hindman, C.L. ; Lake, B.M. ; Rungaldier, H.
Author_Institution :
TRW Space & Electron., Redondo Beach, CA, USA
fDate :
3/1/1996 12:00:00 AM
Abstract :
Results of X-band microwave backscatter from sea surfaces at a small-grazing angle for a range of wind speeds (3.8-10.3 m/s) are presented. The data indicate that the speed of faster-than-Bragg scatterers and their time-averaged polarization ratio both increase with wind speed. At a friction velocity above ~21 cm/s, super events (i.e., backscattering events where the horizontal-polarization power exceeds the vertical-polarization power) begin to appear. The fraction of fast scatterers which produce super events also increases with wind speed. The presence of super events indicates that in addition to scattering mechanisms, such as Bragg-resonant scattering, composite surface theory, wedge scattering, and specular reflection, other mechanisms which favor the horizontal-polarization returns must be considered
Keywords :
CW radar; backscatter; electromagnetic wave polarisation; electromagnetic wave scattering; ocean waves; oceanographic techniques; radar polarimetry; remote sensing by radar; wind; 21 cm/s; 3.8 to 10.3 m/s; 9.02 to 9.47 GHz; Bragg-resonant scattering; X-band; composite surface theory; faster-than-Bragg scatterers; friction velocity; horizontal-polarization power; sea surfaces; small-grazing-angle microwave backscatter; specular reflection; time-averaged polarization ratio; vertical-polarization power; wedge scattering; wind-speed dependence; Acoustic scattering; Backscatter; Frequency; Intelligent sensors; Lakes; Polarization; Radar scattering; Reflection; Sea surface; Wind speed;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
