International audienceRecently we have introduced a new approach based on the Holland's formalism to deal with thin wire in the FDTD method. However stability problem occurs when a wire has its length very short compared to the FDTD cell size. To avoid CFL criterion reducing, an original procedure using a temporal Crank-Nicolson scheme is proposed. This approach is applied to the auxiliary equations of Holland's formalism only
The inclusion of thin lossy, material layers, such as carbon based composites, is ...
The calculation of induced current on wires is important if equipment immunity to electromagnetic ha...
The finite difference time domain method contains additional techniques for modeling thin wires whos...
International audienceRecently we have introduced a new approach based on the Holland's formalism to...
International audienceRecently we have introduced a new approach based on Holland's formalism to dea...
International audienceA new oblique thin wire formalism based on Holland's approach is proposed in t...
International audiencen the FDTD method, the Cartesian meshing is a critical point for conforming st...
A subcell model for thin wires in the finite-difference time-domain (FDTD) method using modified tel...
The oblique thin-wire formalism of the FDTD-3D method is generalized with a theory based on the intr...
International audienceWe have recently introduced a new approach based on Holland's formalism to dea...
This contribution removes some doubts about the stability issues associated with the local and aniso...
This paper presents new efficient algorithms for implementing 3-D Crank-Nicolson-based finite-differ...
The inclusion of thin lossy, material layers, such as carbon based composites, is essential for many...
This paper presents an extension of the stochasticFDTD method to predict the standard deviati...
The round contour integration method is proposed to accurately simulate the currents on conducting t...
The inclusion of thin lossy, material layers, such as carbon based composites, is ...
The calculation of induced current on wires is important if equipment immunity to electromagnetic ha...
The finite difference time domain method contains additional techniques for modeling thin wires whos...
International audienceRecently we have introduced a new approach based on the Holland's formalism to...
International audienceRecently we have introduced a new approach based on Holland's formalism to dea...
International audienceA new oblique thin wire formalism based on Holland's approach is proposed in t...
International audiencen the FDTD method, the Cartesian meshing is a critical point for conforming st...
A subcell model for thin wires in the finite-difference time-domain (FDTD) method using modified tel...
The oblique thin-wire formalism of the FDTD-3D method is generalized with a theory based on the intr...
International audienceWe have recently introduced a new approach based on Holland's formalism to dea...
This contribution removes some doubts about the stability issues associated with the local and aniso...
This paper presents new efficient algorithms for implementing 3-D Crank-Nicolson-based finite-differ...
The inclusion of thin lossy, material layers, such as carbon based composites, is essential for many...
This paper presents an extension of the stochasticFDTD method to predict the standard deviati...
The round contour integration method is proposed to accurately simulate the currents on conducting t...
The inclusion of thin lossy, material layers, such as carbon based composites, is ...
The calculation of induced current on wires is important if equipment immunity to electromagnetic ha...
The finite difference time domain method contains additional techniques for modeling thin wires whos...