Performance of waveguide-based two-dimensional photonic-crystal mirrors studied with Fabry-Perot resonators

Maxime Rattier; Henri Benisty; Christopher J.M. Smith; Alexandre Béraud; David Cassagne; Christian Jouanin; Thomas F. Krauss; Claude Weisbuch

doi:10.1109/3.903074

Performance of waveguide-based two-dimensional photonic-crystal mirrors studied with Fabry-Perot resonators

Maxime Rattier, Henri Benisty, Christopher J.M. Smith, Alexandre Béraud, David Cassagne, Christian Jouanin, Thomas F. Krauss, Claude Weisbuch

Research output: Contribution to journal › Article › peer-review

49 Citations (Scopus)

Abstract

As a step toward the use of photonic crystals in optoelectronic devices, we present a thorough study of 2-D photonic-crystal mirrors etched into a GaAs/AlGaAs planar waveguide. Fabry-Perot resonators are fabricated to deduce the reflectivity, transmission, losses, as well as the penetration lengths of these mirrors. The guided photoluminescence of InAs quantum dots embedded in GaAs is used to obtain the transmission spectra of these cavities. The varying thickness between the mirrors allows a scan across the whole bandgap spectral range. Quality factors (up to 200) and peak transmissions (up to 0.3) are measured showing that mirrors of four rows of holes have 88% reflectivity, 6% transmission and 6% losses. Losses are also related to a two-dimensional transfer matrix method calculation including a recently introduced scheme to account for losses.

Original language	English
Pages (from-to)	237-243
Number of pages	7
Journal	IEEE Journal of Quantum Electronics
Volume	37
Issue number	2
DOIs	https://doi.org/10.1109/3.903074
Publication status	Published - Feb 2001
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Condensed Matter Physics
Electrical and Electronic Engineering

Documents and Links

10.1109/3.903074

Cite this

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title = "Performance of waveguide-based two-dimensional photonic-crystal mirrors studied with Fabry-Perot resonators",

abstract = "As a step toward the use of photonic crystals in optoelectronic devices, we present a thorough study of 2-D photonic-crystal mirrors etched into a GaAs/AlGaAs planar waveguide. Fabry-Perot resonators are fabricated to deduce the reflectivity, transmission, losses, as well as the penetration lengths of these mirrors. The guided photoluminescence of InAs quantum dots embedded in GaAs is used to obtain the transmission spectra of these cavities. The varying thickness between the mirrors allows a scan across the whole bandgap spectral range. Quality factors (up to 200) and peak transmissions (up to 0.3) are measured showing that mirrors of four rows of holes have 88% reflectivity, 6% transmission and 6% losses. Losses are also related to a two-dimensional transfer matrix method calculation including a recently introduced scheme to account for losses.",

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AU - Rattier, Maxime

AU - Benisty, Henri

AU - Smith, Christopher J.M.

AU - Béraud, Alexandre

AU - Cassagne, David

AU - Jouanin, Christian

AU - Krauss, Thomas F.

AU - Weisbuch, Claude

PY - 2001/2

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N2 - As a step toward the use of photonic crystals in optoelectronic devices, we present a thorough study of 2-D photonic-crystal mirrors etched into a GaAs/AlGaAs planar waveguide. Fabry-Perot resonators are fabricated to deduce the reflectivity, transmission, losses, as well as the penetration lengths of these mirrors. The guided photoluminescence of InAs quantum dots embedded in GaAs is used to obtain the transmission spectra of these cavities. The varying thickness between the mirrors allows a scan across the whole bandgap spectral range. Quality factors (up to 200) and peak transmissions (up to 0.3) are measured showing that mirrors of four rows of holes have 88% reflectivity, 6% transmission and 6% losses. Losses are also related to a two-dimensional transfer matrix method calculation including a recently introduced scheme to account for losses.

AB - As a step toward the use of photonic crystals in optoelectronic devices, we present a thorough study of 2-D photonic-crystal mirrors etched into a GaAs/AlGaAs planar waveguide. Fabry-Perot resonators are fabricated to deduce the reflectivity, transmission, losses, as well as the penetration lengths of these mirrors. The guided photoluminescence of InAs quantum dots embedded in GaAs is used to obtain the transmission spectra of these cavities. The varying thickness between the mirrors allows a scan across the whole bandgap spectral range. Quality factors (up to 200) and peak transmissions (up to 0.3) are measured showing that mirrors of four rows of holes have 88% reflectivity, 6% transmission and 6% losses. Losses are also related to a two-dimensional transfer matrix method calculation including a recently introduced scheme to account for losses.

U2 - 10.1109/3.903074

DO - 10.1109/3.903074

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ER -

Performance of waveguide-based two-dimensional photonic-crystal mirrors studied with Fabry-Perot resonators

Abstract

ASJC Scopus subject areas

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