• DocumentCode
    1529335
  • Title

    Modeling of wind direction signals in polarimetric sea surface brightness temperatures

  • Author

    Yueh, Simon H.

  • Author_Institution
    Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
  • Volume
    35
  • Issue
    6
  • fYear
    1997
  • fDate
    11/1/1997 12:00:00 AM
  • Firstpage
    1400
  • Lastpage
    1418
  • Abstract
    There has been an increasing interest in the applications of polarimetric microwave radiometers for ocean wind remote sensing. Aircraft and spaceborne radiometers have found a few Kelvins wind direction signals in sea surface brightness temperatures, in addition to their sensitivities to wind speeds. However, it was not clear what physical scattering mechanisms produced the observed brightness dependence on wind direction. To this end, polarimetric microwave emissions from wind-generated sea surfaces are investigated with a polarimetric two-scale scattering model, which relates the directional wind-wave spectrum to passive microwave signatures of sea surfaces. Theoretical azimuthal modulations are found to agree well with experimental observations for all Stokes parameters from near nadir to 65° incidence angles. The upwind and downwind asymmetries of brightness temperatures were interpreted using the hydrodynamic modulation. The contributions of Bragg scattering by short waves, geometric optics scattering by long waves and sea foam are examined. The geometric optics scattering mechanism underestimates the directional signals in the first three Stokes parameters, and predicts no signals in the fourth Stokes parameter (V). In contrast, the Bragg scattering was found to dominate the wind direction signals from the two-scale model and correctly predicted the phase changes of the upwind and crosswind asymmetries in Tυ and U from middle to high incidence angles. The phase changes predicted by the Bragg scattering theory for radiometric emission from water ripples is corroborated by the numerical Monte Carlo simulation of rough surface scattering. This theoretical interpretation indicates the potential use of polarimetric brightness temperatures for retrieving the directional wave spectrum of short gravity and capillary waves
  • Keywords
    atmospheric techniques; microwave measurement; millimetre wave measurement; ocean waves; oceanographic techniques; polarimetry; radiometry; remote sensing; wind; Bragg scattering; azimuthal modulation; capillary wave; directional wave spectrum; downwind asymmetry; fourth Stokes parameter; hydrodynamic modulation; marine atmosphere; measurement technique; meteorology; microwave radiometry; passive microwave signature; polarimetry; remote sensing; rough surface; sea surface; sea surface brightness temperature; short gravity wave; wind; wind direction; Brightness temperature; Geometrical optics; Ocean temperature; Optical modulation; Optical scattering; Optical sensors; Optical surface waves; Radiometers; Sea surface; Stokes parameters;
  • fLanguage
    English
  • Journal_Title
    Geoscience and Remote Sensing, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0196-2892
  • Type

    jour

  • DOI
    10.1109/36.649793
  • Filename
    649793