Add to ORKGIn this work, some developments in the theory of modelling integrated optical devices are discussed. The theory of the Beam Propagation Method (BPM) to analyse longitudinal optical waveguides is established. The BPM is then formulated and implemented numerically to study both two and three-dimensional optical waveguides using several Finite-Difference (FD) techniques. For the 2-D analysis, comparisons between the performance of the implicit Crank Nicholson (CN), the explicit Real Space (RS) and the Explicit Finite-Difference (EFD) are made through systematic tests on slab waveguide geometries. For three-dimensional applications, two explicit highly-parallel three-dimensional FD-BPMs (the RS and the EFD) have been implemented on two differen...
A finite difference beam propagation method (FD-BPM) algorithm using an adaptive mesh is proposed fo...
Characterization and performance estimates for polymer, step-index, multi-mode, channel waveguides r...
At the heart of future communication systems will be integrated, all optical devices. The role of th...
In this work, some developments in the theory of modelling integrated optical devices are discussed....
In this work, we present a simple efficient numerical solution for the three-dimensional coupled wav...
In this work, we present a simple efficient numerical solution for the three-dimensional coupled wav...
In this work, we present a simple efficient numerical solution for the three-dimensional coupled wav...
We implement the Du Fort-Frankel modified explicit finite-difference beam propagation method (MEFD) ...
We implement the Du Fort-Frankel modified explicit finite-difference beam propagation method (MEFD) ...
The beam propagation method (BPM) used for the design of an integrated optical (IO) coupler was prop...
In this chapter, a single mode rib optical waveguide is modeled using three distinct methods which i...
A new technique to model the behavior of pulsed optical beams in waveguides is proposed and analyzed...
In the present paper we review the state of the art of two complementary propagation techniques with...
A new efficient technique that models the behavior of pulsed optical beams in homogenous medium, met...
A new efficient technique that models the behavior of pulsed optical beams in homogenous medium, met...
A finite difference beam propagation method (FD-BPM) algorithm using an adaptive mesh is proposed fo...
Characterization and performance estimates for polymer, step-index, multi-mode, channel waveguides r...
At the heart of future communication systems will be integrated, all optical devices. The role of th...
In this work, some developments in the theory of modelling integrated optical devices are discussed....
In this work, we present a simple efficient numerical solution for the three-dimensional coupled wav...
In this work, we present a simple efficient numerical solution for the three-dimensional coupled wav...
In this work, we present a simple efficient numerical solution for the three-dimensional coupled wav...
We implement the Du Fort-Frankel modified explicit finite-difference beam propagation method (MEFD) ...
We implement the Du Fort-Frankel modified explicit finite-difference beam propagation method (MEFD) ...
The beam propagation method (BPM) used for the design of an integrated optical (IO) coupler was prop...
In this chapter, a single mode rib optical waveguide is modeled using three distinct methods which i...
A new technique to model the behavior of pulsed optical beams in waveguides is proposed and analyzed...
In the present paper we review the state of the art of two complementary propagation techniques with...
A new efficient technique that models the behavior of pulsed optical beams in homogenous medium, met...
A new efficient technique that models the behavior of pulsed optical beams in homogenous medium, met...
A finite difference beam propagation method (FD-BPM) algorithm using an adaptive mesh is proposed fo...
Characterization and performance estimates for polymer, step-index, multi-mode, channel waveguides r...
At the heart of future communication systems will be integrated, all optical devices. The role of th...