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Calmon, Pierre-François
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Publications (6/6 displayed)
- 2024Optical Feedback FM-to-AM Conversion with integrated Micro-Ring Resonator for Displacement Sensing Applicationscitations
- 2018Coupled-mode analysis of vertically-coupled AlGaAs/AlOx microdisk resonatorscitations
- 2017Buried Waveguides using a Quasi-Planar Process
- 2016III-V-semiconductor vertically-coupled whispering-gallery mode resonators made by selective lateral oxidation
- 2015Vertically Coupled Microdisk Resonators Using AlGaAs/AlOx Technologycitations
- 2015AlOx/AlGaAs technology for multi-plane integrated photonic devices
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article
Coupled-mode analysis of vertically-coupled AlGaAs/AlOx microdisk resonators
Abstract
This article reports the experimental and theoretical assessments of the optical characteristics of recently-introduced vertically-coupled microdisk resonators made by selective oxidation of AlGaAs multilayer structures. Experimental measurements show that the Q-factors are in the 10 3 to 10 4 range for diameters ranging from 75 to 300 µm. To establish the origins of this limited performance a coupled-mode-theory-based model of the single-access-waveguide-coupled resonator system was developed. It includes features which are specific to oxide-based vertically-coupled resonators, namely losses towards the slab waveguide lying under the resonator and a coupling region with an asymmetric and multilayer structure. Setting this simulation tool required the proposal and validation of a general criterion to select an appropriate set of decomposition permittivity profiles to be able to accurately model the characteristics of these more complex couplers using the coupled-mode-theory approach. This theoretical development is generic and can be now deployed to simulate any device which includes multi-waveguide couplers with arbitrary piece-wise-constant profile of the dielectric permittivity. Exploiting this particular development and experimental measurements of the disk sidewall roughness and of the coupling lengths, the calculated and experimental Q-factors are found to be in good agreement and allow establishing that the current performance is limited by the scattering losses and the slab-leakage losses for small-and large-diameter devices respectively.