Add to ORKGIn this paper, we revisit, with further enhancements and clarifications, the self-consistent first-principles approach developed previously for deriving the vector radiative transfer theory for a discrete random medium with a sparse concentration of particles. We specifically consider the case of a plane-parallel particulate layer embedded in an otherwise homogeneous unbounded medium. The solution method is based on the far-field Foldy equations, an order-of-scattering expansion for the total field derived under the Twersky approximation, the computation of the coherent field by assuming that the positions of the particles are uncorrelated, and the ladder approximation for the coherency dyadic. The latter yields an integral equation for the...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
We use Ambartsumian's method of addition of layers to show that various problems, including the stan...
In this paper, we revisit, with further enhancements and clarifications, the self-consistent first-p...
In this paper, the vector radiative transfer equation is derived by means of the vector integral Fol...
In this paper, the vector radiative transfer equation is derived by means of the vector integral Fol...
A vector radiative transfer equation with an additional source term typical of dense media is obtain...
In this paper we present the vector radiative transfer theory for a discrete random medium illuminat...
For a macroscopically plane-parallel discrete random medium, the boundary conditions for the specifi...
For a macroscopically plane-parallel discrete random medium, the boundary conditions for the specifi...
The article gives an introduction to classical vector radiative transfer theory (RTT). It comprises ...
International audienceRadiative transfer in a semi-transparent medium can be described by a spacetim...
The analytical solution of the plane-parallel radiative transfer equation is obtained in the two-st...
Pure and Applied Mathematics, Volume 74: Radiative Transfer on Discrete Spaces presents the geometri...
International audienceThis paper derives a multiresolution formulation of the radiative transfer equ...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
We use Ambartsumian's method of addition of layers to show that various problems, including the stan...
In this paper, we revisit, with further enhancements and clarifications, the self-consistent first-p...
In this paper, the vector radiative transfer equation is derived by means of the vector integral Fol...
In this paper, the vector radiative transfer equation is derived by means of the vector integral Fol...
A vector radiative transfer equation with an additional source term typical of dense media is obtain...
In this paper we present the vector radiative transfer theory for a discrete random medium illuminat...
For a macroscopically plane-parallel discrete random medium, the boundary conditions for the specifi...
For a macroscopically plane-parallel discrete random medium, the boundary conditions for the specifi...
The article gives an introduction to classical vector radiative transfer theory (RTT). It comprises ...
International audienceRadiative transfer in a semi-transparent medium can be described by a spacetim...
The analytical solution of the plane-parallel radiative transfer equation is obtained in the two-st...
Pure and Applied Mathematics, Volume 74: Radiative Transfer on Discrete Spaces presents the geometri...
International audienceThis paper derives a multiresolution formulation of the radiative transfer equ...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
We use Ambartsumian's method of addition of layers to show that various problems, including the stan...