Po-Yun Wang scite author profile

A new method for fabricating a high-quality buried-heterostructure optical waveguide using quantum well intermixing (QWI) has been demonstrated. By patterning a SiO 2 thin film on top of a multiple quantum well (MQW) heterostructure, rapid thermal annealing (RTA) could induce laterally local QWI, resulting in a bandgap blueshift and a simultaneous decrease in the refractive index. Both lateral bandgap and index engineering could be attained along the MQW plane, which could be used for a buried-heterostructure optical waveguide. Two SiO 2 strips with 3, 5 and 7 µm windows were fabricated for waveguide on a 1540 nm InGaAsP MQW sample. A 120 nm blueshift under the SiO 2 area was observed, leading to the index contrast of 0.07. Far-field optical diffraction measurements were also performed to yield angles of 13.9°, 12.8°and 10.6°. A narrower window resulted in a narrower optical waveguide width and exhibited a larger diffraction angle, suggesting that QWI defined the buried optical waveguide. In addition, an electroabsorption modulator was also made by buried waveguide. A −10 dB low optical insertion loss and a 15 dB high extinction ratio in a 500 µm long waveguide were obtained, indicating that a buried heterostructure could be used for photonic devices and integration applications.

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Low-loss and high-speed electroabsorption modulator using InGaAsP/InAlGaAs multiple quantum wells

Yang

Wang

Chen

et al. 2015

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High efficiency electroabsorption modulator by using local quantum well intermixing

Wang

Chen

et al. 2016

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Po-Yun Wang

Local Quantum Well Intermixing for Fabricating High-Speed Electroabsorption Modulator

Low-Loss Buried-Heterostructure Optical Waveguide Based on Impurity-Free-Vacancy-Diffusion Quantum Well Intermixing

Low-loss and high-speed electroabsorption modulator using InGaAsP/InAlGaAs multiple quantum wells

High efficiency electroabsorption modulator by using local quantum well intermixing

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