Finite-difference time-domain (FDTD) methods suffer from reduced accuracy when discretizing discontinuous materials. We previously showed that accuracy can be significantly improved by using subpixel smoothing of the isotropic dielectric function, but only if the smoothing scheme is properly designed. Using recent developments in perturbation theory that were applied to spectral methods, we extend this idea to anisotropic media and demonstrate that the generalized smoothing consistently reduces the errors and even attains secondorder convergence with resolution
Abstract. Anisotropic diffusion filters with a diffusion tensor are suc-cessfully used in many image...
The accuracy of perturbation methods for traveltime computations in anisotropic media is investigate...
Recently, the simulation of high frequency devices has become of increasing importance due to the de...
A 3-D FDTD method for full anisotropic medium was formulated and examined. Contrary to other methods...
In this paper an unsplit anisotropic perfectly matched layer (PML) medium, previously utilized in th...
Abstract—We present a corrective subcell averaging technique that improves on the accuracy of the vo...
We developed a new finite-difference time-domain (FDTD) Maxwell solver for simultaneously fully-anis...
Analysis of electromagnetic (EM) wave phenomena in complex media has attracted considerable interest...
The implementation of the Split-Field Finite Difference Time-Domain (SP-FDTD) method in Graphics Pro...
A numerical formulation based on the precise-integration time-domain (PITD) method for simulating pe...
A finite difference time domain algorithm on a wavefront-ray grid (WRG-FDTD) is proposed in this stu...
The finite difference-time domain algorithm is extended by means of finite integration technique to ...
We will demonstrate an example of 2.5D modeling for an anisotropic medium, by using a second order a...
The implementation of split-field finite difference time domain (SF-FDTD) applied to light-wave prop...
The recursive-convolution solution for anisotropic and dispersive media was seen to yield accurate r...
Abstract. Anisotropic diffusion filters with a diffusion tensor are suc-cessfully used in many image...
The accuracy of perturbation methods for traveltime computations in anisotropic media is investigate...
Recently, the simulation of high frequency devices has become of increasing importance due to the de...
A 3-D FDTD method for full anisotropic medium was formulated and examined. Contrary to other methods...
In this paper an unsplit anisotropic perfectly matched layer (PML) medium, previously utilized in th...
Abstract—We present a corrective subcell averaging technique that improves on the accuracy of the vo...
We developed a new finite-difference time-domain (FDTD) Maxwell solver for simultaneously fully-anis...
Analysis of electromagnetic (EM) wave phenomena in complex media has attracted considerable interest...
The implementation of the Split-Field Finite Difference Time-Domain (SP-FDTD) method in Graphics Pro...
A numerical formulation based on the precise-integration time-domain (PITD) method for simulating pe...
A finite difference time domain algorithm on a wavefront-ray grid (WRG-FDTD) is proposed in this stu...
The finite difference-time domain algorithm is extended by means of finite integration technique to ...
We will demonstrate an example of 2.5D modeling for an anisotropic medium, by using a second order a...
The implementation of split-field finite difference time domain (SF-FDTD) applied to light-wave prop...
The recursive-convolution solution for anisotropic and dispersive media was seen to yield accurate r...
Abstract. Anisotropic diffusion filters with a diffusion tensor are suc-cessfully used in many image...
The accuracy of perturbation methods for traveltime computations in anisotropic media is investigate...
Recently, the simulation of high frequency devices has become of increasing importance due to the de...