Publication result detail

Simulation of 3D Photonic Nanostructures Using a Bidirectional Eigenmode Propagation Algorithm

LUKSCH, J.; PETRÁČEK, J.

Original Title

Simulation of 3D Photonic Nanostructures Using a Bidirectional Eigenmode Propagation Algorithm

English Title

Simulation of 3D Photonic Nanostructures Using a Bidirectional Eigenmode Propagation Algorithm

Type

Paper in proceedings (conference paper)

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.

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

eigenmode expansion and propagation, integrated optics, numerical modeling, optical waveguides

Key words in English

eigenmode expansion and propagation, integrated optics, numerical modeling, optical waveguides

Authors

LUKSCH, J.; PETRÁČEK, J.

RIV year

2013

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

44

Pages to

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",
  pages="44--44",
  publisher="The George Green Institute for Electromagnetics Research",
  address="Nottingham",
  isbn="978-0-9541146-4-0"
}