International audienceForward propagation above dielectric surfaces is studied using the Split Step Fourier resolution technique (SSF). The introduction of Fresnel Boundary Conditions (SSF-FBC) and Leontovitch Boundary Conditions (SSF-LBC) is described. The numerical singularity induced by the reflection coefficient at pseudo-Brewster incidence is analyzed, and the DMFT solution for SSF-LBC resolution is retrieved. The limit induced by the Leontovitch assumption is studied on typical grounds. Numerical validations of the proposed method are presented by comparison with the asymptotic formulation. As the SSF is based on an FFT algorithm, the acceleration using a GPU implementation is studied and the numerical time gains are given
This is the GPU version of Split Step Fourier PE method to solve the Lloyd's Mirror Problem (http://...
This paper deals with the mathematical study of the surface Fresnel integral (SFI) which enables a r...
International audienceIn the context of improving the dimensioning of observation and telecommunicat...
International audienceForward propagation above dielectric surfaces is studied using the Split Step ...
International audienceForward propagation above dielectric surface is studied using Split Step Fouri...
The numerical simulation of long-distance, over-terrain propagation of electromagnetic waves has rec...
The long-range propagation of electromagnetic waves is a major issue in telecommunication, navigatio...
A novel Fourier split-step algorithm for the solution of the parabolic wave equation is proposed. Th...
La propagation à longue distance est un problème majeur dans les télécommunications, la navigation e...
Présent dans ScopusInternational audienceA propagation method self-consistent in the discrete domain...
Parabolic Wave Equations are an area of extensive research in the description of wave propagation. T...
Recently we presented a new Split-Step Fourier algorithm to the simulation of optical-fiber transmis...
The Split-Field Finite-Difference Time-Domain (SF-FDTD) scheme is an optimal formulation for modelin...
The implementation of split-field finite difference time domain (SF-FDTD) applied to light-wave prop...
AbstractSlip-step Fourier Transform (SSFT) and Finite Difference (FD) algorithms are introduced to s...
This is the GPU version of Split Step Fourier PE method to solve the Lloyd's Mirror Problem (http://...
This paper deals with the mathematical study of the surface Fresnel integral (SFI) which enables a r...
International audienceIn the context of improving the dimensioning of observation and telecommunicat...
International audienceForward propagation above dielectric surfaces is studied using the Split Step ...
International audienceForward propagation above dielectric surface is studied using Split Step Fouri...
The numerical simulation of long-distance, over-terrain propagation of electromagnetic waves has rec...
The long-range propagation of electromagnetic waves is a major issue in telecommunication, navigatio...
A novel Fourier split-step algorithm for the solution of the parabolic wave equation is proposed. Th...
La propagation à longue distance est un problème majeur dans les télécommunications, la navigation e...
Présent dans ScopusInternational audienceA propagation method self-consistent in the discrete domain...
Parabolic Wave Equations are an area of extensive research in the description of wave propagation. T...
Recently we presented a new Split-Step Fourier algorithm to the simulation of optical-fiber transmis...
The Split-Field Finite-Difference Time-Domain (SF-FDTD) scheme is an optimal formulation for modelin...
The implementation of split-field finite difference time domain (SF-FDTD) applied to light-wave prop...
AbstractSlip-step Fourier Transform (SSFT) and Finite Difference (FD) algorithms are introduced to s...
This is the GPU version of Split Step Fourier PE method to solve the Lloyd's Mirror Problem (http://...
This paper deals with the mathematical study of the surface Fresnel integral (SFI) which enables a r...
International audienceIn the context of improving the dimensioning of observation and telecommunicat...