Three methods for the efficient simulation of two-dimensional photonic crystal structures are compared, namely, a semianalytical multiple-scattering technique; a vectorial eigenmode expansion technique; and a FDTD-ROM technique. The basic principles of each method are presented. For the semianalytical technique and for the vectorial eigenmode expansion technique, we show how reflections coming from abruptly terminated waveguides can be avoided. The main advantages and disadvantages of each method are discussed. Results from use of the three methods are compared for several photonic crystal structures. (C) 2004 Optical Society of America.status: publishe
We apply the expanded basis method (EBM) to investigate the behavior of light in a two-dimensional p...
this paper, a method for the computation of the band structure of two-dimensional photonic crystals ...
[[abstract]]In this thesis, we theoretically study the optical properties and their applications for...
In this thesis an investigation into the behaviour of light when passing through photonic crystals w...
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 Bloch mode scattering matrix method for modeling extended photonic crystal (PC) structures was i...
This thesis is concerned with the theoretical study of one-dimensional and two-dimensional photonic ...
A faster method of simulating 2D slabs, both metallic and dielectric, with cylindrical inclusions is...
We present a fast and efficient full vectorial modeling method for photonic crystal devices. This me...
Using 2 different numerical methods (FDTD and a novel pandirectional planar Helmholtz solver), we an...
FDTD method is based on Maxwell's equations and this thesis describe how to make these differential ...
International audienceNew rigorous approach to the analysis of 2-D photonic crystals is suggested in...
Abstract—We present a novel numerical scheme for the reduc-tion of spurious reflections in simulatio...
In the present thesis, computational methods for theanalysis and design of photonic bandgap structur...
We apply the expanded basis method (EBM) to investigate the behavior of light in a two-dimensional p...
this paper, a method for the computation of the band structure of two-dimensional photonic crystals ...
[[abstract]]In this thesis, we theoretically study the optical properties and their applications for...
In this thesis an investigation into the behaviour of light when passing through photonic crystals w...
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 Bloch mode scattering matrix method for modeling extended photonic crystal (PC) structures was i...
This thesis is concerned with the theoretical study of one-dimensional and two-dimensional photonic ...
A faster method of simulating 2D slabs, both metallic and dielectric, with cylindrical inclusions is...
We present a fast and efficient full vectorial modeling method for photonic crystal devices. This me...
Using 2 different numerical methods (FDTD and a novel pandirectional planar Helmholtz solver), we an...
FDTD method is based on Maxwell's equations and this thesis describe how to make these differential ...
International audienceNew rigorous approach to the analysis of 2-D photonic crystals is suggested in...
Abstract—We present a novel numerical scheme for the reduc-tion of spurious reflections in simulatio...
In the present thesis, computational methods for theanalysis and design of photonic bandgap structur...
We apply the expanded basis method (EBM) to investigate the behavior of light in a two-dimensional p...
this paper, a method for the computation of the band structure of two-dimensional photonic crystals ...
[[abstract]]In this thesis, we theoretically study the optical properties and their applications for...