Add to ORKGDetailed frequency-dependent formulations are presented for several efficient locally one-dimensional finite-difference time-domain methods (LOD-FDTDs) based on the recursive convolution (RC), piecewise linear RC (PLRC), trapezoidal RC (TRC), auxiliary differential equation, and Z transform techniques. The performance of each technique is investigated through the analyses of surface plasmon waveguides, the dispersions of which are expressed by the Drude and Drude-Lorentz models. The simple TRC technique requiring a single convolution integral is found to offer the comparable accuracy to the PLRC technique with two convolution integrals. As an application, a plasmonic grating filter is studied using the TRC-LOD-FDTD. The use of an apodized a...
The authors present an analysis of plasmonic wave filter and curved waveguide, simulated using a 2-D...
Abstract—We present a three-dimensional finite difference time domain (FDTD) method on graphics proc...
Various metal-insulator-metal- (MIM-) type plasmonic waveguides and gratings are investigated numeri...
Detailed frequency-dependent formulations are presented for several efficient locally one-dimensiona...
The implicit finite-difference time-domain (FDTD) method based on the locally one-dimensional scheme...
A concise formulation of the frequency-dependent finite-difference time-domain (FDTD) method is pres...
A fundamental scheme is utilized to efficiently implement the frequency-dependent three-dimensional ...
A widespread approach in the FDTD analysis of dispersive media is the Recursive Convolution (RC) met...
One of the main techniques for the Finite-Difference Time-Domain (FDTD) analysis of dispersive media...
This chapter presents the formulation of novel unconditionally stable fundamental alternating direct...
A plasmonic waveguide-type band-pass filter using two rectangular resonators is analyzed by the fini...
An efficient finite-difference time-domain method based on the locally one-dimensional scheme (LOD-F...
A widespread approach in the FDTD analysis of dispersive media is the Recursive Convolution (RC) met...
This paper discusses numerical analysis methods for different geometrical features that have limited...
A simplified algorithm for frequency-dependent calculations of a multipole Debye model is developedo...
The authors present an analysis of plasmonic wave filter and curved waveguide, simulated using a 2-D...
Abstract—We present a three-dimensional finite difference time domain (FDTD) method on graphics proc...
Various metal-insulator-metal- (MIM-) type plasmonic waveguides and gratings are investigated numeri...
Detailed frequency-dependent formulations are presented for several efficient locally one-dimensiona...
The implicit finite-difference time-domain (FDTD) method based on the locally one-dimensional scheme...
A concise formulation of the frequency-dependent finite-difference time-domain (FDTD) method is pres...
A fundamental scheme is utilized to efficiently implement the frequency-dependent three-dimensional ...
A widespread approach in the FDTD analysis of dispersive media is the Recursive Convolution (RC) met...
One of the main techniques for the Finite-Difference Time-Domain (FDTD) analysis of dispersive media...
This chapter presents the formulation of novel unconditionally stable fundamental alternating direct...
A plasmonic waveguide-type band-pass filter using two rectangular resonators is analyzed by the fini...
An efficient finite-difference time-domain method based on the locally one-dimensional scheme (LOD-F...
A widespread approach in the FDTD analysis of dispersive media is the Recursive Convolution (RC) met...
This paper discusses numerical analysis methods for different geometrical features that have limited...
A simplified algorithm for frequency-dependent calculations of a multipole Debye model is developedo...
The authors present an analysis of plasmonic wave filter and curved waveguide, simulated using a 2-D...
Abstract—We present a three-dimensional finite difference time domain (FDTD) method on graphics proc...
Various metal-insulator-metal- (MIM-) type plasmonic waveguides and gratings are investigated numeri...