We calculate all the elements of the Mueller matrix for light scattering from a two-dimensional randomly rough lossy metal surface. The calculations are carried out for arbitrary angles of incidence by the use of nonperturbative numerical solutions of the reduced Rayleigh equations. We foresee that the ability to model polarization effects in light scattering from surfaces will enable better interpretation of experimental data and allow for the design of surfaces which possess useful polarization effects. © 2012 American Physical Society
A great number of natural phenomena that we observe, as well as numerous man-made objects we use in ...
International audienceElectromagnetic theory is used to calculate the gradual loss of polarization i...
Exhaustive studies in the literature detail the Mueller matrices properties thro...
A formalism is introduced for the non-perturbative, purely numerical, solution of the reduced Raylei...
A formalism is introduced for the non-perturbative, purely numerical, solution of the reduced Raylei...
The light scattered from a scatterer depends on the geometrical properties such as size, shape, and ...
By a computer simulation approach we study the scattering of p- or s-polarized light from a two-dime...
In this research, the Polar Decomposition (PD) has been applied to the Mueller m...
In this research, the Polar Decomposition (PD) has been applied to the Mueller matrices (MMs) of th...
We present rigorous, nonperturbative, purely numerical solutions of the Rayleigh equations for the s...
The reflection and scattering of light from surfaces is a topic that has been much discussed in the ...
We have reconsidered the theory of the scattering and absorption of light incident on a medium of di...
The Mueller matrix dependence on an objects' albedo and surface texture are measured and these effec...
A theoretical and numerical study is made of the scattering of light and other electromagnetic waves...
The light scattering of rough metallic surfaces with roughness levels ranging from a few to several ...
A great number of natural phenomena that we observe, as well as numerous man-made objects we use in ...
International audienceElectromagnetic theory is used to calculate the gradual loss of polarization i...
Exhaustive studies in the literature detail the Mueller matrices properties thro...
A formalism is introduced for the non-perturbative, purely numerical, solution of the reduced Raylei...
A formalism is introduced for the non-perturbative, purely numerical, solution of the reduced Raylei...
The light scattered from a scatterer depends on the geometrical properties such as size, shape, and ...
By a computer simulation approach we study the scattering of p- or s-polarized light from a two-dime...
In this research, the Polar Decomposition (PD) has been applied to the Mueller m...
In this research, the Polar Decomposition (PD) has been applied to the Mueller matrices (MMs) of th...
We present rigorous, nonperturbative, purely numerical solutions of the Rayleigh equations for the s...
The reflection and scattering of light from surfaces is a topic that has been much discussed in the ...
We have reconsidered the theory of the scattering and absorption of light incident on a medium of di...
The Mueller matrix dependence on an objects' albedo and surface texture are measured and these effec...
A theoretical and numerical study is made of the scattering of light and other electromagnetic waves...
The light scattering of rough metallic surfaces with roughness levels ranging from a few to several ...
A great number of natural phenomena that we observe, as well as numerous man-made objects we use in ...
International audienceElectromagnetic theory is used to calculate the gradual loss of polarization i...
Exhaustive studies in the literature detail the Mueller matrices properties thro...