Abstract
This article presents a new index, polarization-conversion ratio (PCR) to characterize depolarized bistatic scattering from rough surfaces with dielectric inhomogeneity and spatial anisotropy. We then investigate the dependence of PCR on both surface and radar parameters. Numerical results show that the distribution of PCR on the scattering plane varies with the polarization state of the incident wave and incident angle. The PCR clusters more in the cross-plane for horizontally polarized incidence. However, for vertically polarized incidence, the PCR disperses as “triangular shape” on the whole scattering plane with a sharp valley occurring in the incident plane. The following points can be drawn: 1) the inhomogeneity effectively enhances the PCR in the cross-plane; 2) the effect of anisotropy on the PCR is relatively weak, because the scattering is less affected by correlation length; 3) the impacts of surface rms height on the PCR are negative on the whole scattering plane; and 4) as the background permittivity increases, at the horizontally polarized incidence, the PCR is enhanced in the backward and forward regions, while at vertically polarized incidence, it is enhanced in the incident plane and the forward region. As is demonstrated, the PCR is an effective measure of the sensitivity of depolarization, making it potentially useful as a new reliable index for surface parameter inversion.
Highlights
P OLARIZATION, as one of the inherent properties of electromagnetic (EM) waves, is of practical significance to many applications [1]–[4]
The results demonstrate that the advanced integral equation model (AIEM) model can be practically useful to model the scattering from the anisotropic inhomogeneous rough surface
The examination of the different dielectric profile, surface parameter, and radar parameter effects on the polarization-conversion ratio (PCR) is in order
Summary
P OLARIZATION, as one of the inherent properties of electromagnetic (EM) waves, is of practical significance to many applications [1]–[4]. Bartalis et al [30] demonstrated the azimuthal anisotropy of the scatterometer measurements by the European Remote Sensing Satellite and SeaWinds overland with plowing in the north–south direction Another example is that Xu et al [31] conducted a full-wave simulation of bistatic scattering from the wind-sculpted sastrugi surface, which resembles a ridge and corrugated structure and can be modeled as a spatially anisotropic surface. From the preceding review of previous works, either dielectric inhomogeneity or spatial anisotropy was considered, but not taking account of both of them simultaneously It is the main objective of this article to explore the bistatic scattering characteristics and polarization conversion for rough surfaces with both azimuthal anisotropy and dielectric inhomogeneity. An advanced integral equation model (AIEM) [34]–[37] is adopted as a working model to simulate the bistatic scattering coefficients
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