Henri Bénisty scite author profile

The so-called PT symmetric devices, which feature ε((-x)) = ε((x))* associated with parity-time symmetry, incorporate both gain and loss and can present a singular eigenvalue behaviour around a critical transition point. The scheme, typically based on co-directional coupled waveguides, is here transposed to the case of variable gain on one arm with fixed losses on the other arm. In this configuration, the scheme exploits the full potential of plasmonics by making a beneficial use of their losses to attain a critical regime that makes switching possible with much lowered gain excursions. Practical implementations are discussed based on existing attempts to elaborate coupled waveguide in plasmonics, and based also on the recently proposed hybrid plasmonics waveguide structure with a small low-index gap, the PIROW (Plasmonic Inverse-Rib Optical Waveguide).

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Photonic-crystal GaN light-emitting diodes with tailored guided modes distribution

David

et al. 2006

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International audienceWe relate the currently limited efficiency of photonic crystal (PhC)--assisted gallium nitride light-emitting diodes (LEDs) to the existence of unextracted guided modes. To remedy this, we introduce epitaxial structures which modify the distribution of guided modes. LEDs are fabricated according to this concept, and the tailored band structure is determined experimentally. We investigate theoretically the consequences of this improvement, which significantly enhances the potential for efficient light extraction by PhCs

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Radiation losses of waveguide-based two-dimensional photonic crystals: Positive role of the substrate

et al. 2000

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Radiation losses occurring in photonic crystals etched into planar waveguides are analyzed using a first-order perturbation approximation. Assuming the incoherent scattering limit, the model indicates that losses diminish as the cladding index approaches the core index. A simple scheme is devised to include these losses into purely two-dimensional calculations by using an imaginary index. Such calculations are shown to agree with corresponding experimental transmission through near-infrared photonic crystals, reproducing the contrasting behavior of the “dielectric” and “air” band edges.

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Optical and confinement properties of two-dimensional photonic crystals

Bénisty

Weisbuch

Labilloy

et al. 1999

J. Lightwave Technol.

218

120

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Abstract-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-plane 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.

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Photonic bands in two-dimensionally patterned multimode GaN waveguides for light extraction

et al. 2005

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International audienceWe observe experimentally by photoluminescence the band structure and specific emission properties of an in-plane, light-diffracting photonic crystal formed onto a multimode gallium nitride waveguide. Clear-cut two-dimensional photonic crystal effects are reported. Comparison with modeling results in identification of the band structure, provides insight into the light diffraction mechanism and points out design issues for enhancement of the extraction efficiency

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High-efficiency semiconductor resonant-cavity light-emitting diodes: a review

Delbeke

Bockstaele

Bienstman

et al. 2002

IEEE J. Select. Topics Quantum Electron.

140

108

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Abstract-An overview of highly efficient resonant-cavity lightemitting diodes is presented. First, the basics of dipole emission in planar cavities are reviewed. From these, a number of design rules are derived. We point out some guidelines for comparison of high-efficiency light-emitting diodes, and use these to review the state-of-the-art devices in different material systems and at different wavelengths. We also discuss some advanced techniques based on gratings or photonic crystals to improve the efficiency of these devices.

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Optimization of Light-Diffracting Photonic-Crystals for High Extraction Efficiency LEDs

David

Bénisty

Weisbuch

2007

J. Display Technol.

127

106

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Plasmonic Metasurface for Directional and Frequency-Selective Thermal Emission

et al. 2015

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International audienceIncandescent filaments and membranes are often used as infrared sources despite their low efficiency, broad angular emission, and lack of spectral selectivity. Here, we introduce a metasurface to control simultaneously the spectrum and the directivity of blackbody radiation. The plasmonic metasurface operates reliably at 600 °C with an emissivity higher than 0.85 in a narrow frequency band and in a narrow solid angle. This emitter paves the way for the development of compact, efficient, and cheap IR sources and gas detection systems

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Henri Bénisty

Implementation of PT symmetric devices using plasmonics: principle and applications

Photonic-crystal GaN light-emitting diodes with tailored guided modes distribution

Radiation losses of waveguide-based two-dimensional photonic crystals: Positive role of the substrate

Optical and confinement properties of two-dimensional photonic crystals

Photonic bands in two-dimensionally patterned multimode GaN waveguides for light extraction

High-efficiency semiconductor resonant-cavity light-emitting diodes: a review

Optimization of Light-Diffracting Photonic-Crystals for High Extraction Efficiency LEDs

Plasmonic Metasurface for Directional and Frequency-Selective Thermal Emission

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