DocumentCode
1023431
Title
A Study of Backscattering and Emission from Closely Packed Inhomogeneous Media
Author
Fung, Adrian K. ; Eom, Hyo J.
Author_Institution
Department of Electrical Engineering, University of Texas at Arlington, Arlington, TX 76019
Issue
5
fYear
1985
Firstpage
761
Lastpage
767
Abstract
The effects of close spacing between small scattering spheres were examined by keeping the distance-dependent terms in the expressions for the transverse scattered fields. The phase matrix was then derived from these fields and was used in the radiative transfer formulation to model scattering and emission from a densely populated, inhomogeneous layer. Computed results were compared with those obtained when the phase matrix was specialized to the far-field condition. It was found that the use of the far-zone condition tended to underestimate both the level of the copolarized backscattering and the cross-polarized backscattering. In emission computations, the use of the far-zone condition overestimated the level of the brightness temperature. hese effecit decreased with a decrease in the volume fraction or an increase in the exploring frequency, as expected. An improvement on the snow parameter (density and crystal size) estimation was shown to be possible when this new phase matrix was used.
Keywords
Backscatter; Brightness temperature; Frequency; Laboratories; NASA; Nonhomogeneous media; Parameter estimation; Phase estimation; Scattering parameters; Snow;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing, IEEE Transactions on
Publisher
ieee
ISSN
0196-2892
Type
jour
DOI
10.1109/TGRS.1985.289395
Filename
4072371
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