Add to ORKGA methodology is presented that allows the derivation of low-truncation-error finite difference equations for photonics simulation. This methodology is applied to the case of wide-angle beam propagation in two dimensions, resulting in finite difference equations for both TE and TM polarization that are quasi-fourth-order accurate even in the presence of interfaces between dissimilar dielectrics. This accuracy is accomplished without an appreciable increase in numerical overhead and is concretely demonstrated for two test problems having known solutions. These finite difference equations facilitate an approach to the ideal of grid-independent computing and should allow the solution of interesting problems on personal computers
Abstract. A tool for modeling the propagation of optical beams is proposed and investigated. Trun-ca...
Full-wave simulations of optical waveguides are often intractable due to their large electrical size...
Abstract:- This paper deals with the two main shortcomings of explicit finite difference schemes: th...
Progress towards the development of such algorithms as been reported for waveguide analysis'-3and ve...
Numerical methods for the simulation of photonic structures bring serious advantages in the field of...
Numerical methods for the simulation of photonic structures bring serious advantages in the field of...
This thesis explains and implements the Finite Difference Method to simulate for the ...
We present a finite-element simulation tool for calculating light fields in 3D nano-optical devices....
It is shown that by adapting the refractive indexes in the vicinity of interfaces, the 2-D beam prop...
An efficient full-vectorial finite element beam propagation method is presented that uses higher ord...
New 2D scalar beam propagation methods for both TE and TM polarization are presented. Both second- a...
This work involves the development and application of high accuracy numerical methods for computatio...
In telecommunication, optical chips modulate, switch or amplify light, enabling a large amount of da...
grantor: University of TorontoThe numerical simulation of linear wave propagation and scat...
Abstract: The solution of the Maxwell equations in layered media has a discontinuity in the derivati...
Abstract. A tool for modeling the propagation of optical beams is proposed and investigated. Trun-ca...
Full-wave simulations of optical waveguides are often intractable due to their large electrical size...
Abstract:- This paper deals with the two main shortcomings of explicit finite difference schemes: th...
Progress towards the development of such algorithms as been reported for waveguide analysis'-3and ve...
Numerical methods for the simulation of photonic structures bring serious advantages in the field of...
Numerical methods for the simulation of photonic structures bring serious advantages in the field of...
This thesis explains and implements the Finite Difference Method to simulate for the ...
We present a finite-element simulation tool for calculating light fields in 3D nano-optical devices....
It is shown that by adapting the refractive indexes in the vicinity of interfaces, the 2-D beam prop...
An efficient full-vectorial finite element beam propagation method is presented that uses higher ord...
New 2D scalar beam propagation methods for both TE and TM polarization are presented. Both second- a...
This work involves the development and application of high accuracy numerical methods for computatio...
In telecommunication, optical chips modulate, switch or amplify light, enabling a large amount of da...
grantor: University of TorontoThe numerical simulation of linear wave propagation and scat...
Abstract: The solution of the Maxwell equations in layered media has a discontinuity in the derivati...
Abstract. A tool for modeling the propagation of optical beams is proposed and investigated. Trun-ca...
Full-wave simulations of optical waveguides are often intractable due to their large electrical size...
Abstract:- This paper deals with the two main shortcomings of explicit finite difference schemes: th...