textA simulation study of the modes of propagation through a 3D photonic crystal using a C++ eigen value solver is presented in this work. The valid modes of propagation through a photonic crystal can be obtained by equating the field equations across the crystal boundary, which when rearranged gives rise to a complex eigen value problem. A 2D photonic crystal would yield a comparatively simple solution but the work in this thesis looks at a 3D photonic crystal which introduces a multifold of solutions. The enormity of the solution space of this problem demands that the simulation be run on a larger environment than a PC. C++ being the most compatible coding language for advanced multi processor computing systems became the obvious choice a...
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
We present a framework to solve non-linear eigenvalue problems suitable for a Finite Element discret...
This paper considers the numerical computation of the photonic band structure of periodic materials ...
textA simulation study of the modes of propagation through a 3D photonic crystal using a C++ eigen v...
In this thesis three methods are presented which calculate the lowest eigenvalues of a set of extrem...
We present a finite-element simulation tool for calculating light fields in 3D nano-optical devices....
We present a fast and efficient full vectorial modeling method for photonic crystal devices. This me...
Photonic crystals are materials with periodically modulated dielectric constant, through which certa...
In this thesis an investigation into the behaviour of light when passing through photonic crystals w...
Photonic Crystals (PCs) are materials with periodically modulated dielectric constant, through which...
Three methods for the efficient simulation of two-dimensional photonic crystal structures are compar...
We have developed an algorithm for the estimation of eigenvalue spectra and have applied it to the d...
The first part of this paper is devoted to the modeling of wave propagation inside a perfect two-dim...
We present sophisticated procedures for the efficient and accurate simulation of photonic crystal st...
We investigate the different performances of a 2D and a 3D numerical approach in investigating photo...
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
We present a framework to solve non-linear eigenvalue problems suitable for a Finite Element discret...
This paper considers the numerical computation of the photonic band structure of periodic materials ...
textA simulation study of the modes of propagation through a 3D photonic crystal using a C++ eigen v...
In this thesis three methods are presented which calculate the lowest eigenvalues of a set of extrem...
We present a finite-element simulation tool for calculating light fields in 3D nano-optical devices....
We present a fast and efficient full vectorial modeling method for photonic crystal devices. This me...
Photonic crystals are materials with periodically modulated dielectric constant, through which certa...
In this thesis an investigation into the behaviour of light when passing through photonic crystals w...
Photonic Crystals (PCs) are materials with periodically modulated dielectric constant, through which...
Three methods for the efficient simulation of two-dimensional photonic crystal structures are compar...
We have developed an algorithm for the estimation of eigenvalue spectra and have applied it to the d...
The first part of this paper is devoted to the modeling of wave propagation inside a perfect two-dim...
We present sophisticated procedures for the efficient and accurate simulation of photonic crystal st...
We investigate the different performances of a 2D and a 3D numerical approach in investigating photo...
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
We present a framework to solve non-linear eigenvalue problems suitable for a Finite Element discret...
This paper considers the numerical computation of the photonic band structure of periodic materials ...