DocumentCode
1265577
Title
Resonant coupling of near-infrared radiation to photonic band structure waveguides
Author
Astratov, Vasily N. ; Culshaw, Ian S. ; Stevenson, R. Mark ; Whittaker, David M. ; Skolnick, Maurice S. ; Krauss, Thomas F. ; De La Rue, Richard M.
Author_Institution
Dept. of Phys. & Astron., Sheffield Univ., UK
Volume
17
Issue
11
fYear
1999
fDate
11/1/1999 12:00:00 AM
Firstpage
2050
Lastpage
2057
Abstract
Sharp resonance features are observed in the polarized reflectivity spectra of semiconductor photonic crystals fabricated by deep periodic patterning of AlGaAs surface waveguides. Both one- (1-D) and two-dimensional (2-D) lattices are studied by angular dependent reflectivity. By comparison with theory we show that the sharp features in reflectivity arise from resonant coupling of the external radiation to the folded band structure of the photonic crystal waveguides. Wavevector selective coupling to “heavy photon” states at the edge of the photonic Brillouin zone is demonstrated for the 1-D lattices. In the case of the 2-D lattices we observe polarization mixing of the photonic hands. Theoretical reflectivity spectra were obtained from a numerical solution of Maxwells equations for the patterned waveguide and were found to be in very good agreement with experiment
Keywords
Brillouin zones; III-V semiconductors; Maxwell equations; aluminium compounds; gallium arsenide; light polarisation; optical couplers; optical waveguides; photonic band gap; reflectivity; 1D lattices; 2D lattices; AlGaAs; AlGaAs surface waveguides; Maxwells equations; angular dependent reflectivity; deep periodic patterning; folded band structure; near-infrared radiation; numerical solution; patterned waveguide; photonic Brillouin zone; photonic band structure waveguides; photonic crystal waveguides; polarized reflectivity spectra; resonance features; resonant coupling; semiconductor photonic crystals; wavevector selective coupling; Lattices; Maxwell equations; Photonic crystals; Polarization; Reflectivity; Resonance; Semiconductor waveguides; Surface waves; Two dimensional displays; Waveguide theory;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/50.802994
Filename
802994
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