Electromagnetic wave scattering from random rough surfaces is an active, interdisciplinary
area of research with myriad practical applications in fields such as optics, acoustics …

To investigate the potential of passive microwave techniques for observing the atmosphere
over land, it is important to understand the nature of emissions from the land surface. The …

In this paper, a fast method is presented to model the forward propagation above Gaussian
rough surfaces and taking into account atmospheric refraction. The method is based on the …

The parabolic equation is an efficient numerical solution for electromagnetic wave
propagation. In order to address the difficulties in predicting electromagnetic wave …

An asymptotic method is described for predicting the bistatic normalized radar cross section
of a rough homogeneous layer made up of two rough surfaces. The model is based on …

The emissivity of two-dimensional anisotropic rough sea surfaces with non-Gaussian
statistics is investigated. The emissivity derivation is of importance for retrieval of the sea …

Scattering from very rough homogeneous layers is studied in the high-frequency limit (under
the geometric optics approximation) by taking the shadowing effect into account. To do so …

We investigate the volume and surface shadowing in particulate porous random media with
macroscale surface roughness over the full scattering hemisphere using Monte-Carlo ray …

The surface directional spectral emissivity of rough metal surfaces in industry is of concern in
infrared temperature measurement. In this research, the height and slope possibility density …

This paper is devoted to the forward radar propagation over clean and contaminated seas,
using the Ament model and by taking the shadowing effect into account. The well-known …