Publication detail
Simulation of photonic crystal nanocavities using a bidirectional eigenmode propagation algorithm: a comparative study
PETRÁČEK, J. LUKSCH, J. MAES, B. BURGER, S. KWIECIEN, P. RICHTER, I.
Original Title
Simulation of photonic crystal nanocavities using a bidirectional eigenmode propagation algorithm: a comparative study
Type
conference paper
Language
English
Original Abstract
A new implementation of bidirectional eigenmode expansion and propagation algorithm for the modeling of three-dimensional waveguide structures is presented. The eigenmodes, which are used for expansion of unknown field, are searched numerically using a full vector finite-difference or finite-element modesolver. The technique is applied to the modeling of high-Q one-dimensional photonic crystal nanocavity and its results are compared with results obtained by three other independent techniques.
Keywords
eigenmode expansion, numerical modeling, photonic crystals, high-Q nanocavities
Authors
PETRÁČEK, J.; LUKSCH, J.; MAES, B.; BURGER, S.; KWIECIEN, P.; RICHTER, I.
RIV year
2012
Released
1. 1. 2012
Publisher
CNR National Research Council
Location
Trento
ISBN
978-83-7798-020-0
Book
Proceedings of International Conference on Micro- and nano-photonic materials and devices, MINAP 2012.
Pages from
109
Pages to
112
Pages count
4
BibTex
@inproceedings{BUT93614,
author="Jiří {Petráček} and Jaroslav {Luksch} and Bjorn {Maes} and Sven {Burger} and Pavel {Kwiecien} and Ivan {Richter}",
title="Simulation of photonic crystal nanocavities using a bidirectional eigenmode propagation algorithm: a comparative study",
booktitle="Proceedings of International Conference on Micro- and nano-photonic materials and devices, MINAP 2012.",
year="2012",
pages="109--112",
publisher="CNR National Research Council",
address="Trento",
isbn="978-83-7798-020-0"
}