Title :
Turbulence-induced millimeter-wave scintillation compared with micrometeorological measurements
Author :
Hill, R.J. ; Bohlander, R.A. ; Clifford, S.F. ; McMillan, Robert W. ; Priestly, J.T. ; Schoenfeld, W.P.
Author_Institution :
NOAA, Boulder, CO, USA
fDate :
5/1/1988 12:00:00 AM
Abstract :
Scintillations of intensity and phase difference were measured at millimeter wavelengths in a horizontally homogeneous atmospheric surface layer. Simultaneous micrometeorological and optical propagation measurements characterized the clear-air turbulence. Predicted and measured propagation statistics are in good agreement. It is shown that the phase structure function showed a rolloff at large spacings as was expected because the outer scale of the turbulence and log-intensity and phase difference are Gaussian random variables. The mutual coherence function is exp(-D/2) to great accuracy, where D is the sum of phase and log-amplitude structure functions. Estimating heat and humidity fluxes from intensity variances is shown to be valid
Keywords :
atmospheric boundary layer; atmospheric electromagnetic wave propagation; atmospheric turbulence; radiowave propagation; tropospheric electromagnetic wave propagation; 30 to 300 GHz; EHF; atmosphere; atmospheric surface layer; boundary layer; clear-air turbulence; intensity; micrometeorological; microwave; millimeter-wave scintillation; mm wave; phase difference; phase structure function; propagation statistics; radiowave propagation; troposphere; turbulence; Atmospheric measurements; Atmospheric waves; Millimeter wave measurements; Millimeter wave propagation; Optical propagation; Optical surface waves; Phase measurement; Statistics; Surface waves; Wavelength measurement;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
