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Microring Resonator Wavelength Tunable Filter Using Five-Layer Asymmetric Coupled Quantum Well

By: Arakawa, T.; Hasegawa, R.; Gotoh, T.; Makino, T.; Kokubun, Y.;

2011 / IEEE

Description

This item was taken from the IEEE Periodical ' Microring Resonator Wavelength Tunable Filter Using Five-Layer Asymmetric Coupled Quantum Well ' We propose and demonstrate a semiconductor single microring resonator wavelength tunable filter utilizing InGaAs/InAlAs five-layer asymmetric coupled quantum wells for a fast low-power operation. A directional coupler with a shallow gap is used for coupling between busline and microring waveguides to control precisely the coupling efficiency. A wafer is grown by molecular beam epitaxy, and the waveguides are fabricated by two-step inductively coupled plasma reactive ion etching. The resonant wavelength shift of 0.9 nm is obtained under the reverse bias of 13 V.