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Electrically tunable slow and fast lights in a quantum-dot semiconductor optical amplifier near 1.55 μ m

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Abstract

We have demonstrated both slow light in the absorption regime and fast light in the gain regime of a 1.55μm quantum-dot semiconductor optical amplifier at room temperature. The theory with coherent population oscillations and four-wave mixing effects agrees well with the experimental results. We have observed a larger phase delay at the excited state than that at the ground state transition, likely due to the higher gain and smaller saturation power of the excited state.

© 2007 Optical Society of America

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