Optical and confinement properties of two-dimensional photonic crystals

Optical and confinement properties of two-dimensional photonic crystals

We describe experiments on a quasi-two dimensional (2-D) optical system consisting of a triangular array of air cylinders etched through a laser-like Ga(Al)As waveguiding heterostructure. Such a configuration is shown to yield results very well approximated by the infinite 2-D photonic crystal (PC)....

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Bibliographic Details
Published in:Journal of lightwave technology Vol. 17; no. 11; pp. 2063 - 2077
Main Authors: Benisty, H., Weisbuch, C., Labilloy, D., Rattier, M., Smith, C.J.M., Krauss, T.F., de la Rue, R.M., Houdre, R., Oesterle, U., Jouanin, C., Cassagne, D.
Format: Journal Article
Language:English
Published: IEEE 01-11-1999
Subjects:
Arrays
Confinement
Etching
Fabry-Perot
Measurement methods
Optical arrays
Optical diffraction
Optical properties
Optical reflection
Optical scattering
Photoluminescence
Photonic crystals
Photons
Quantum dots
Slabs
Spontaneous emission
Two dimensional
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Summary:We describe experiments on a quasi-two dimensional (2-D) optical system consisting of a triangular array of air cylinders etched through a laser-like Ga(Al)As waveguiding heterostructure. Such a configuration is shown to yield results very well approximated by the infinite 2-D photonic crystal (PC). We first present a set of measurements of the optical properties (transmission, reflection, and diffraction) of slabs of these photonic crystals, including the case of in-plane Fabry-Perot cavities formed between two such crystals. The measurement method makes use of the guided photoluminescence of embedded quantum wells or InAs quantum dots to generate an internal probe beam. Out-of-plant, scattering losses are evaluated by various means. In a second part, in-plane micrometer-sized photonic boxes bounded by circular trenches or by two-dimensional photonic crystal are probed by exciting spontaneous emission inside them. The high quality factors observed in such photon boxes demonstrate the excellent photon confinement attainable in these systems and allow to access the detail of the modal structure. Last, some perspectives for applications are offered.
Bibliography:ObjectType-Article-2
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ISSN:0733-8724
1558-2213
DOI:10.1109/50.802996