Wave scattering from a lossy dielectric rough surface using PBTG-BMIA/CAG and applications to passive remote sensing
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Wave scattering from a lossy dielectric rough surface is studied. Based on the fact that Green's function of the air region is slowly varying compared to that in a lower medium and Green's function in a lossy medium is attenuative, a physics-based two-grid method (PBTG) was developed. To facilitate computation, the method is combined with the banded-matrix iterative approach/canonical grid (BMIA/CAG) method. Applying this method, bistatic scattering coefficients and emissivities are calculated. The results show good agreement in comparison with that of using a single dense grid.
[1] Leung Tsang,et al. Numerical solution of scattering of waves by lossy dielectric surfaces using a physics‐based two‐grid method , 1997 .
[2] Leung Tsang,et al. Numerical simulation of conical diffraction of tapered electromagnetic waves from random rough surfaces and applications to passive remote sensing , 1994 .
[3] Leung Tsang,et al. Monte Carlo simulations of large-scale one-dimensional random rough-surface scattering at near-grazing incidence: Penetrable case , 1998 .