20 April 2006 Characterization and operation of a broadband all-optical vertical cavity semiconductor wavelength converter
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Wavelength conversion with high contrast ratio and low OSNR penalty has been achieved by using a resonant vertical-cavity all-optical switch based on saturable absorption in multiple-quantum-wells. The device was grown by MBE on InP substrate. It comprised a 19.5 pairs n+-Ga0.47In0.53As/InP bottom DBR, 28 Ga0.47In0.53As QWs, and a 50% reflective top dielectric mirror. We carried out conversion experiments between a wavelength-tunable modulated pump signal and a CW beam with a wavelength matching the Fabry-Perot resonance of the switch. Using a 622 Mb/s modulated pump with an average power of only 6-dBm we have demonstrated a 15 dB extinction ratio for the converted signal. The wavelength conversion process exhibited a weak dependence on the pump signal wavelength; we have achieved wavelength conversion in a range of 20 nm. BER/OSNR measurements on the wavelength converted data signal indicated a maximum OSNR penalty (at a BER=10-9) of about 2.5 dB, with respect to the input pump data, over the entire conversion range. Error free operation was observed up to 2 Gb/s when device performance degraded due to its long absorption recovery time. However, with further optimization, the device recovery time could be reduced to the picosecond range, extending its application to much higher date rates.
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Claudio Porzi, Claudio Porzi, Luca Poti, Luca Poti, Antonella Bogoni, Antonella Bogoni, Mircea Guina, Mircea Guina, Oleg Okhotnikov, Oleg Okhotnikov, "Characterization and operation of a broadband all-optical vertical cavity semiconductor wavelength converter", Proc. SPIE 6183, Integrated Optics, Silicon Photonics, and Photonic Integrated Circuits, 61830Z (20 April 2006); doi: 10.1117/12.663401; https://doi.org/10.1117/12.663401

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