A new time-domain numerical approach for two-dimensional vectorial wave equation solutions based on slow wave variation is presented. The algorithm incorporates finite-element discretization and uses orthogonal edge basis functions to describe pulse propagation in optical waveguides.1841730525
A new technique to model the behavior of pulsed optical beams in waveguides is proposed and analyzed...
The linear time-domain beam propagation method (TD-BPM) has been extended to model the propagation o...
A numerical dispersion analysis for the finite-element (FE) method in time domain (TD) is presented....
A novel time-domain scheme, based on the slow-wave variation approach and computation of the second ...
The performance of the recently developed time-domain beam-propagation methods (TD-BPMs) is compared...
New three-dimension orthogonal basis functions for finite element solution of the vectorial wave equ...
Several finite-element based time-domain approaches for the analysis of photonic devices are discuss...
A vectorial time-domain simulator of integrated optical structures containing second order nonlinear...
The linear time-domain beam propagation method (TD-BPM) has been extended to model the propagation o...
The paper discusses the frequency domain based solution for a certain class of wave equations such a...
The paper discusses the frequency domain based solution for a certain class of wave equations such a...
Abstract—Three-dimensional (3-D) orthogonal vector basis functions are developed for the time-domain...
A new efficient technique that models the behavior of pulsed optical beams in homogenous medium, met...
This paper proposes an explicit finite-difference timedomain (FDTD) method for solving the wave equa...
Resumo: Este trabalho apresenta uma nova formulação para a simulação da propagação de campos eletrom...
A new technique to model the behavior of pulsed optical beams in waveguides is proposed and analyzed...
The linear time-domain beam propagation method (TD-BPM) has been extended to model the propagation o...
A numerical dispersion analysis for the finite-element (FE) method in time domain (TD) is presented....
A novel time-domain scheme, based on the slow-wave variation approach and computation of the second ...
The performance of the recently developed time-domain beam-propagation methods (TD-BPMs) is compared...
New three-dimension orthogonal basis functions for finite element solution of the vectorial wave equ...
Several finite-element based time-domain approaches for the analysis of photonic devices are discuss...
A vectorial time-domain simulator of integrated optical structures containing second order nonlinear...
The linear time-domain beam propagation method (TD-BPM) has been extended to model the propagation o...
The paper discusses the frequency domain based solution for a certain class of wave equations such a...
The paper discusses the frequency domain based solution for a certain class of wave equations such a...
Abstract—Three-dimensional (3-D) orthogonal vector basis functions are developed for the time-domain...
A new efficient technique that models the behavior of pulsed optical beams in homogenous medium, met...
This paper proposes an explicit finite-difference timedomain (FDTD) method for solving the wave equa...
Resumo: Este trabalho apresenta uma nova formulação para a simulação da propagação de campos eletrom...
A new technique to model the behavior of pulsed optical beams in waveguides is proposed and analyzed...
The linear time-domain beam propagation method (TD-BPM) has been extended to model the propagation o...
A numerical dispersion analysis for the finite-element (FE) method in time domain (TD) is presented....