Ghent University Academic Bibliography

Advanced

Optical modelling of photonic crystals and VCSELs using eigenmode expansion and perfectly matched layers.

Peter Bienstman UGent and Roel Baets UGent (2001) OPTICAL AND QUANTUM ELECTRONICS. 33(4-5). p.327-341
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
journal title
OPTICAL AND QUANTUM ELECTRONICS
Opt. Quantum Electron.
volume
33
issue
4-5
pages
327-341 pages
Web of Science type
Article
Web of Science id
000169624600003
JCR category
ENGINEERING, ELECTRICAL & ELECTRONIC
JCR impact factor
0.706 (2001)
JCR rank
80/198 (2001)
JCR quartile
2 (2001)
ISSN
0306-8919
language
English
UGent publication?
yes
classification
A1
id
143565
handle
http://hdl.handle.net/1854/LU-143565
date created
2004-01-14 13:37:00
date last changed
2016-12-19 15:38:34
@article{143565,
  author       = {Bienstman, Peter and Baets, Roel},
  issn         = {0306-8919},
  journal      = {OPTICAL AND QUANTUM ELECTRONICS},
  language     = {eng},
  number       = {4-5},
  pages        = {327--341},
  title        = {Optical modelling of photonic crystals and VCSELs using eigenmode expansion and perfectly matched layers.},
  volume       = {33},
  year         = {2001},
}

Chicago
Bienstman, Peter, and Roel Baets. 2001. “Optical Modelling of Photonic Crystals and VCSELs Using Eigenmode Expansion and Perfectly Matched Layers.” Optical and Quantum Electronics 33 (4-5): 327–341.
APA
Bienstman, Peter, & Baets, R. (2001). Optical modelling of photonic crystals and VCSELs using eigenmode expansion and perfectly matched layers. OPTICAL AND QUANTUM ELECTRONICS, 33(4-5), 327–341.
Vancouver
1.
Bienstman P, Baets R. Optical modelling of photonic crystals and VCSELs using eigenmode expansion and perfectly matched layers. OPTICAL AND QUANTUM ELECTRONICS. 2001;33(4-5):327–41.
MLA
Bienstman, Peter, and Roel Baets. “Optical Modelling of Photonic Crystals and VCSELs Using Eigenmode Expansion and Perfectly Matched Layers.” OPTICAL AND QUANTUM ELECTRONICS 33.4-5 (2001): 327–341. Print.