All-Optical Switching and Wavelength Conversion Based on Ultrafast Nonlinearities in Semiconductor Optical Amplifiers

We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in a multi-quantum-well semiconductor optical amplifier. We present a rate equation model that accounts for two-photon absorption, free-carrier absorption, self- and cross phase modulation, carrier heati...

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Bibliographic Details
Published in:Japanese Journal of Applied Physics 2004-08, Vol.43 (8S), p.5731
Main Authors: Dorren, Harm J. S., Mishra, Arvind K., Yang, Xuelin, Li, Zhonggui, Ju, Heongkyu, Waardt, Huug de, Khoe, Djan, Lenstra, Daan
Format: Article
Language:English
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Summary:We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in a multi-quantum-well semiconductor optical amplifier. We present a rate equation model that accounts for two-photon absorption, free-carrier absorption, self- and cross phase modulation, carrier heating, spectral, spatial hole burning and self- and cross polarization modulation. We demonstrate optical AND gate operation using a semiconductor optical amplifier placed in an asymmetric March-Zehnder interferometer and we show that the gate can be operated using 800 fJ optical pulses with duration of 200 fs. We also investigate wavelength conversion based on ultrafast nonlinear polarization rotation. We found a conversion efficiency of 12 dB for control pulse energies of 10 pJ.
ISSN:0021-4922
1347-4065
DOI:10.1143/JJAP.43.5731