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Quantum-state-preserving optical pulse reshaping and multiplexing by four-wave mixing in a fiber

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Abstract

Nondegenerate four-wave mixing driven by two pulsed pumps transfers the quantum state of an input signal pulse to an output idler pulse, which is a frequency-translated and reshaped version of the signal. By varying the pump shapes appropriately, one can connect signal and idler pulses with arbitrary durations and shapes. This process enables a variety of functions required by quantum information networks.

© 2012 Optical Society of America

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