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Under circularly polarized wave incidence, the influence of sea surface nonlinear interactions on electromagnetic scattering signatures is studied by utilizing the polarimetric scattering model of second-order small-slope approximation (SSA-II) combined with “choppy wave” model (CWM) for describing nonlinear hydrodynamic interactions between ocean waves. Analogous to linear polarization case, numerical...
The intensity angular correlation properties of electromagnetic waves scattered from one-dimensional two-layered randomly rough surfaces is investigated by employing Monte Carlo technique accompanied by a parallel fast multiple method. The scattering surface integral equations are formulated by using Helmholtz equation and Green's theorem and then are converted into matrix equations by applying pulse...
Electromagnetic (EM) scattering from a perfect electrically conducting object above lossy dielectric half-space with rough surface is investigated, for both TE and TM polarizations, employing a parallel fast multiple method. Then, based on the scattered electromagnetic field data at multiple-incidence angles and frequencies, a back-projection tomography technique is applied to generate two-dimensional...
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