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Coherent and incoherent scattering of microwaves from the ocean

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1 Author(s)
Beard, C.I. ; Sylvania Electronic Defense Labs., Mountainview, CA, USA

This report, the third in a series,1,2summarizes experimental studies of microwave over-ocean propagation on line-of-sight paths. Measurements at 5.3, 3.2, and 0.86 cm wavelength in 1955, in the Gulf of Mexico, between two oil drilling platforms one mile apart are compared with the results of the phenomenological model developed earlier. The total field was measured at maxima, and minima of the interference patterns using a sequence of receiver beam widths. The scattered field alone was measured by means of a narrow beam. The 1955, Gulf of Mexico data, are consistent with the previous 1953, Golden Gate data, in regions of overlap of certain parameters, and provide extended coverage for other values under different conditions. Specifically, some of the new findings are: a) The experimental values of the coherent reflected field are larger than exp [-2(2pi hpsi /1000lambda)^{2}] for values of "apparent ocean roughness" (hpsi/lambda) greater than 110 milliradians,h=standard deviation of water surface,psi=grazing angle in milliradians, andlambdaelectromagnetic wavelength, b) After rising from zero, the incoherent scattered power exhibits a downtrend forhpsi/lambdagreater than 110. The incoherent power divided by the square of the smooth sea reflection coefficient shows no polarization dependence, c) The distribution along the surface as measured by the narrow-beam antenna shows that the coherent and incoherent power are markedly peaked in the specular direction, d) The ratios of coherent-to-incoherent power (m2) obtained from the shapes of the probability distributions agree with the power ratios obtained by measurements of the magnitudes of the signals, e) Total signal spectra broaden with increasinghpsi/lambdaas found at the Golden Gate; the relative shapes of spectra agree with those from the Golden Gate. Horizontally- and vertically-polarized total signal sp- ectra are the same.

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Antennas and Propagation, IRE Transactions on  (Volume:9 ,  Issue: 5 )