Nonlinear InGaAs-InGaAsP single-quantum-well all-optical-switch - theory and experiments

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Heriot-Watt Univ, Edinburgh, United Kingdom [1 ]
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IEEE J Quantum Electron | / 12卷 / 2112-2121期
关键词
Band structure - Carrier concentration - Gain measurement - Light modulation - Optical waveguides - Optimization - Quantum electronics - Refractive index - Semiconducting gallium arsenide - Semiconducting indium phosphide - Semiconductor device models - Semiconductor quantum wells;
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摘要
A detailed theory for the operation of a guided wave all-optical switch is presented and compared with experimental results. The switch exploits the two polarization-dependent band-edges of an InGaAs-InGaAsP single-quantum-well embedded in an InP waveguide and the dependence of refractive index on carrier density. This semiconductor all-optical nonlinear dichroic (SAND) device is potentially capable of operating at repetition rates up to approximately 50 GHz. The model which has been developed agrees well with the experiments and has been used to determine the optimum design and operating conditions for the device. In particular, it predicts that a gain of 23, with 54% modulation depth, should be achievable in realistic experimental conditions.
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