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VHF radar interferometry measurements of vertical velocity and the effect of tilted refractivity surfaces on standard Doppler measurements
Author(s) -
Palmer Robert D.,
Larsen Miguel F.,
Woodman Ronald F.,
Fukao Shoichiro,
Yamamoto Mamoru,
Tsuda Toshitaka,
Kato Susumu
Publication year - 1991
Publication title -
radio science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.371
H-Index - 84
eISSN - 1944-799X
pISSN - 0048-6604
DOI - 10.1029/91rs00006
Subject(s) - optics , doppler effect , interferometry , phase velocity , perpendicular , physics , wavelength , tilt (camera) , radar , phase (matter) , horizontal plane , geology , doppler radar , geodesy , geometry , telecommunications , mathematics , quantum mechanics , astronomy , computer science
At VHF wavelengths, aspect sensitivity may result in an apparent beam direction that is off vertical even for a nominally vertically pointing beam direction if the refractivity surfaces responsible for the scatter are tilted with respect to the horizontal plane. Middle and upper atmosphere radar measurements obtained by using the system in a standard multireceiver configuration typical for radar interferometry (RI) and spaced antenna measurements have been analyzed for evidence of such effects. The analysis is based on the linear variation of the cross‐spectral phase as a function of the radial velocity in the frequency domain for the RI cross spectra. True‐vertical velocity estimates are obtained by using the fact that the phase difference between two antennas should be equal to zero when the echoes are being received from the vertical direction. The tilt angles of the refractivity surfaces were obtained from the phase of the cross‐correlation function at zero lag, and the radial velocity in that direction was determined from the cross spectra. The results indicate that the vertical velocity derived from standard Doppler analyses is actually the velocity perpendicular to the refractivity surfaces and thus can be biased by the projection of the horizontal wind along the effective pointing direction.

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