Title :
Analysis of a three-dimensional dielectric mixture with finite difference method
Author :
Kärkkäinen, Kimmo ; Sihvola, Ari ; Nikoskinen, Keijo
Author_Institution :
Electromagn. Lab., Helsinki Univ. of Technol., Espoo, Finland
fDate :
5/1/2001 12:00:00 AM
Abstract :
The present paper reports the results of a numerical analysis of electric fields in random dielectric materials. The effective permittivity of a three-dimensional (3D) dielectric mixture is calculated by the finite difference method. The results show the distribution of the effective permittivity of a mixture with different random inclusion positionings. New empirical mixing models are created as least squares approximations to fit the collection of numerical results. The calculated permittivity distribution is also compared with theoretical mixture models, showing that in case of clustered inclusions, the Bruggeman model is quite reasonable. On the other hand, if the inclusions in the mixture are separate, the results are closer to the Maxwell-Garnett model
Keywords :
finite difference methods; geophysical techniques; hydrological techniques; oceanographic techniques; radar cross-sections; radar theory; radiometry; remote sensing by radar; sea ice; snow; terrain mapping; Bruggeman model; clustered inclusions; effective permittivity; electric field; empirical mixing model; finite difference method; geophysical measurement technique; hydrology; land surface; least squares approximation; microwave radiometry; model; numerical model; ocean; radar remote sensing; radar scattering; random dielectric material; random inclusion position; remote sensing; sea ice; snow cover; snowcover; snowpack; terrain mapping; theory; three-dimensional dielectric mixture; Dielectric constant; Dielectric materials; Electromagnetic scattering; Electrostatics; Engine cylinders; Finite difference methods; Geometry; Laboratories; Numerical analysis; Permittivity;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
