Publication detail
Simulation of 3D Photonic Nanostructures Using a Bidirectional Eigenmode Propagation Algorithm
LUKSCH, J. PETRÁČEK, J.
Czech title
Simulace trojrozměrných fotonických nanostruktur pomocí obousměrného rozkladu ve vlastní mody
English title
Simulation of 3D Photonic Nanostructures Using a Bidirectional Eigenmode Propagation Algorithm
Type
conference paper
Language
en
Original abstract
We present a new implementation of a bidirectional eigenmode propagation algorithm for simulation of 3D waveguide structures. The eigenmodes are searched using a finite-difference or finite-element modesolver. The technique is applied to the modeling of high-Q nanocavity with 1D photonic gap.
Czech abstract
Prezentujeme numerickou metodu pro modelování trojrozměrných vlnovodných struktur založenou na rigorózním rozkladu do vlastních modů vlnovodů. Technika je aplikována k modelování fotoncikého nanorezonátoru s vysokým činitelem kvality.
English abstract
We present a new implementation of a bidirectional eigenmode propagation algorithm for simulation of 3D waveguide structures. The eigenmodes are searched using a finite-difference or finite-element modesolver. The technique is applied to the modeling of high-Q nanocavity with 1D photonic gap.
Keywords in English
eigenmode expansion and propagation, integrated optics, numerical modeling, optical waveguides
RIV year
2012
Released
01.05.2012
Publisher
The George Green Institute for Electromagnetics Research
Location
Nottingham
ISBN
978-0-9541146-4-0
Book
20th International Workshop on Optical Waveguide Theory and Numerical Modelling
Pages from–to
44–44
Pages count
1
BIBTEX
@inproceedings{BUT93616,
author="Jaroslav {Luksch} and Jiří {Petráček},
title="Simulation of 3D Photonic Nanostructures Using a Bidirectional Eigenmode Propagation Algorithm",
booktitle="20th International Workshop on Optical Waveguide Theory and Numerical Modelling",
year="2012",
month="May",
pages="44--44",
publisher="The George Green Institute for Electromagnetics Research",
address="Nottingham",
isbn="978-0-9541146-4-0"
}