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Near-infrared grating couplers for silicon nitride photonic wires

Ananth Subramanian UGent, shankar kumar Selvaraja UGent, Peter Verheyen, Ashim Dhakal UGent, Katarzyna Komorowska UGent and Roel Baets UGent (2012) IEEE PHOTONICS TECHNOLOGY LETTERS. 24(19). p.1700-1703
abstract
Silicon nitride is a promising high-index material for dense photonic circuits and applications in the visible-midinfrared wavelength regime. Design, fabrication, and optical characterization of silicon nitride waveguides at visible-near-infrared wavelength are presented. Finally, design and experimental results are presented for the first time for linear and focused grating couplers (GCs) at near-infrared wavelength (900 nm) for plasma-enhanced chemical vapor deposition silicon nitride wires (220 x 500 nm) and compared with theoretical simulations. An experimental efficiency of 5.7 and 6.5 dB and 1-dB bandwidth of 26 and 40 nm are reported for the linear and focused GCs, respectively.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
keyword
WAVE-GUIDES, RING-RESONATOR, COMPACT, Gratings, integrated optics, optical materials, optical waveguides
journal title
IEEE PHOTONICS TECHNOLOGY LETTERS
volume
24
issue
19
pages
1700 - 1703
Web of Science type
Article
Web of Science id
000310744600012
JCR category
ENGINEERING, ELECTRICAL & ELECTRONIC
JCR impact factor
2.038 (2012)
JCR rank
46/242 (2012)
JCR quartile
1 (2012)
ISSN
1041-1135
DOI
10.1109/LPT.2012.2212881
project
Center for nano- and biophotonics (NB-Photonics)
language
English
UGent publication?
yes
classification
A1
copyright statement
I have transferred the copyright for this publication to the publisher
id
3007169
handle
http://hdl.handle.net/1854/LU-3007169
date created
2012-10-05 10:05:31
date last changed
2014-05-26 09:48:55
@article{3007169,
  abstract     = {Silicon nitride is a promising high-index material for dense photonic circuits and applications in the visible-midinfrared wavelength regime. Design, fabrication, and optical characterization of silicon nitride waveguides at visible-near-infrared wavelength are presented. Finally, design and experimental results are presented for the first time for linear and focused grating couplers (GCs) at near-infrared wavelength (900 nm) for plasma-enhanced chemical vapor deposition silicon nitride wires (220 x 500 nm) and compared with theoretical simulations. An experimental efficiency of 5.7 and 6.5 dB and 1-dB bandwidth of 26 and 40 nm are reported for the linear and focused GCs, respectively.},
  author       = {Subramanian, Ananth and Selvaraja, shankar kumar and Verheyen, Peter and Dhakal, Ashim and Komorowska, Katarzyna and Baets, Roel},
  issn         = {1041-1135},
  journal      = {IEEE PHOTONICS TECHNOLOGY LETTERS},
  keyword      = {WAVE-GUIDES,RING-RESONATOR,COMPACT,Gratings,integrated optics,optical materials,optical waveguides},
  language     = {eng},
  number       = {19},
  pages        = {1700--1703},
  title        = {Near-infrared grating couplers for silicon nitride photonic wires},
  url          = {http://dx.doi.org/10.1109/LPT.2012.2212881},
  volume       = {24},
  year         = {2012},
}

Chicago
Subramanian, Ananth, shankar kumar Selvaraja, Peter Verheyen, Ashim Dhakal, Katarzyna Komorowska, and Roel Baets. 2012. “Near-infrared Grating Couplers for Silicon Nitride Photonic Wires.” Ieee Photonics Technology Letters 24 (19): 1700–1703.
APA
Subramanian, A., Selvaraja, shankar kumar, Verheyen, P., Dhakal, A., Komorowska, K., & Baets, R. (2012). Near-infrared grating couplers for silicon nitride photonic wires. IEEE PHOTONICS TECHNOLOGY LETTERS, 24(19), 1700–1703.
Vancouver
1.
Subramanian A, Selvaraja shankar kumar, Verheyen P, Dhakal A, Komorowska K, Baets R. Near-infrared grating couplers for silicon nitride photonic wires. IEEE PHOTONICS TECHNOLOGY LETTERS. 2012;24(19):1700–3.
MLA
Subramanian, Ananth, shankar kumar Selvaraja, Peter Verheyen, et al. “Near-infrared Grating Couplers for Silicon Nitride Photonic Wires.” IEEE PHOTONICS TECHNOLOGY LETTERS 24.19 (2012): 1700–1703. Print.