D. Decoster scite author profile

D. Decoster

3Publications

92Citation Statements Received

91Citation Statements Given

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Affiliations

Institute of Electronics, Microelectronics and Nanotechnology, Artois University, French National Centre for Scientific Research

Publications

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Integrated all‐optical switch with 10 ps time resolution enabled by ALD

Moille

Combrié

Morgenroth

et al. 2016

Laser & Photonics Reviews

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The potential of GaAs‐based photonic crystals for fast all‐optical switching in the telecom spectral range is exploited by controlling the surface recombination and, thereby, the carrier relaxation dynamics. The structure is entirely coated with a layer of aluminium oxide using atomic layer deposition. This results in a carrier lifetime of about 10 ps, as determined by spectrally resolved pump–probe measurements. We show that the nonlinear response of the resonator is optimized when it is excited with a few‐picoseconds pulse. This dynamics is perfectly captured by our model accounting for the carrier diffusion with an impulse response function. Moreover, the suppression of photo‐induced oxidation is revealed to be crucial to demonstrate all‐optical operation at GHz rates with average coupled pump power of 0.5 mW (hence 100 fJ/bit). The switching window is 12 ps wide (1/e), as resolved by homodyne pump–probe measurements. The devices respond to a sequence of closely spaced pump pulses demonstrating a gating window close to 10 ps, with a contrast as high as 7 dB.

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Optical waveguide loss minimized into gallium nitride based structures grown by metal organic vapor phase epitaxy

Stolz

Cho

Dogheche

et al. 2011

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International audienceThe waveguideproperties are reported for wide bandgap gallium nitride(GaN) structures grown by metal organic vapor phase epitaxy on sapphire using a AlN/GaN short period-superlattice (SPS) buffer layer system. A detailed optical characterization of GaN structures has been performed using the prism coupling technique in order to evaluate its properties and, in particular, the refractive index dispersion and the propagation loss. In order to identify the structural defects in the samples, we performed transmission electron microscopy analysis. The results suggest that AlN/GaN SPS plays a role in acting as a barrier to the propagation of threading dislocations in the active GaN epilayer; above this defective region, the dislocations density is remarkably reduced. The waveguide losses were reduced to a value around 0.65dB/cm at 1.55μm, corresponding to the best value reported so far for a GaN-based waveguide

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High Performance Evanescent Edge Coupled Waveguide Unitraveling-Carrier Photodiodes for>tex<$≫$>/tex<40-Gb/s Optical Receivers

Achouche¹,

Magnin²,

Harari³

et al. 2004

IEEE Photon. Technol. Lett.

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D. Decoster

Integrated all‐optical switch with 10 ps time resolution enabled by ALD

Optical waveguide loss minimized into gallium nitride based structures grown by metal organic vapor phase epitaxy

High Performance Evanescent Edge Coupled Waveguide Unitraveling-Carrier Photodiodes for>tex<$≫$>/tex<40-Gb/s Optical Receivers

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D. Decoster

Integrated all‐optical switch with 10 ps time resolution enabled by ALD

Optical waveguide loss minimized into gallium nitride based structures grown by metal organic vapor phase epitaxy

High Performance Evanescent Edge Coupled Waveguide Unitraveling-Carrier Photodiodes for&gt;tex&lt;$≫$&gt;/tex&lt;40-Gb/s Optical Receivers

Contact Info

Product

Resources

About

High Performance Evanescent Edge Coupled Waveguide Unitraveling-Carrier Photodiodes for>tex<$≫$>/tex<40-Gb/s Optical Receivers