Ghent University Academic Bibliography

Advanced

Simulation of photonic crystal nanocavities using a bidirectional eigenmode propagation algorithm: a comparative study

Jiri Petracek, Jaroslav Lukch, Björn Maes UGent, Sven Burger, Pavel Kwiecien and Ivan Richter (2012) Micro- and nano-photonic materials and devices, Proceedings. p.109-112
Please use this url to cite or link to this publication:
author
organization
year
type
conference
publication status
published
subject
in
Micro- and nano-photonic materials and devices, Proceedings
editor
Maurizio Ferrari, Marian Marciniak, Giancarlo C Righini, Tomasz Szoplik and Stefano Varas
pages
109 - 112
publisher
Ghent University, Department of Information technology
place of publication
Ghent, Belgium
conference name
Micro- and nano-photonic materials and devices (MINAP - 2012)
conference location
Trento, Italy
conference start
2012-01-16
conference end
2012-01-18
ISBN
9788377980200
language
English
UGent publication?
no
classification
C1
copyright statement
I have transferred the copyright for this publication to the publisher
id
2989059
handle
http://hdl.handle.net/1854/LU-2989059
date created
2012-09-19 10:33:18
date last changed
2012-09-21 15:13:40
@inproceedings{2989059,
  author       = {Petracek, Jiri and Lukch, Jaroslav and Maes, Bj{\"o}rn and Burger, Sven and Kwiecien, Pavel and Richter, Ivan},
  booktitle    = {Micro- and nano-photonic materials and devices, Proceedings},
  editor       = {Ferrari, Maurizio  and Marciniak, Marian  and Righini, Giancarlo C and Szoplik, Tomasz  and Varas, Stefano },
  isbn         = {9788377980200},
  language     = {eng},
  location     = {Trento, Italy},
  pages        = {109--112},
  publisher    = {Ghent University, Department of Information technology},
  title        = {Simulation of photonic crystal nanocavities using a bidirectional eigenmode propagation algorithm: a comparative study},
  year         = {2012},
}

Chicago
Petracek, Jiri, Jaroslav Lukch, Björn Maes, Sven Burger, Pavel Kwiecien, and Ivan Richter. 2012. “Simulation of Photonic Crystal Nanocavities Using a Bidirectional Eigenmode Propagation Algorithm: a Comparative Study.” In Micro- and Nano-photonic Materials and Devices, Proceedings, ed. Maurizio Ferrari, Marian Marciniak, Giancarlo C Righini, Tomasz Szoplik, and Stefano Varas, 109–112. Ghent, Belgium: Ghent University, Department of Information technology.
APA
Petracek, J., Lukch, J., Maes, B., Burger, S., Kwiecien, P., & Richter, I. (2012). Simulation of photonic crystal nanocavities using a bidirectional eigenmode propagation algorithm: a comparative study. In M. Ferrari, M. Marciniak, G. C. Righini, T. Szoplik, & S. Varas (Eds.), Micro- and nano-photonic materials and devices, Proceedings (pp. 109–112). Presented at the Micro- and nano-photonic materials and devices (MINAP - 2012), Ghent, Belgium: Ghent University, Department of Information technology.
Vancouver
1.
Petracek J, Lukch J, Maes B, Burger S, Kwiecien P, Richter I. Simulation of photonic crystal nanocavities using a bidirectional eigenmode propagation algorithm: a comparative study. In: Ferrari M, Marciniak M, Righini GC, Szoplik T, Varas S, editors. Micro- and nano-photonic materials and devices, Proceedings. Ghent, Belgium: Ghent University, Department of Information technology; 2012. p. 109–12.
MLA
Petracek, Jiri, Jaroslav Lukch, Björn Maes, et al. “Simulation of Photonic Crystal Nanocavities Using a Bidirectional Eigenmode Propagation Algorithm: a Comparative Study.” Micro- and Nano-photonic Materials and Devices, Proceedings. Ed. Maurizio Ferrari et al. Ghent, Belgium: Ghent University, Department of Information technology, 2012. 109–112. Print.