Quantum entanglement of Fock states with perfectly efficient ultraslow single-probe photon four-wave mixing |
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Authors: | Payne M G Deng L |
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Institution: | Electron & Optical Physics Division, National Institute of Standards and Technology, Gaithersburg, Maryland 20899, USA. |
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Abstract: | We propose a method to achieve quantum entanglement of two Fock states with perfectly efficient, ultraslow propagation enhanced four-wave mixing. A cold atomic medium is illuminated with a two-mode cw control laser to produce coherent mixtures of excited states. An ultraslowly propagating, single-photon quantum probe field completes the four-wave mixing with 100% photon flux conversion efficiency, creating a depth dependent entanglement of two Fock states. We show that at a suitable propagation distance, a maximum entangled state is created with a single-photon wave-packet state that has 50% probability of being in each of two product-type Fock states. |
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