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Literature DB >> 19519026

Memory for light as a quantum process.

M Lobino¹, C Kupchak, E Figueroa, A I Lvovsky.

Abstract

We report complete characterization of an optical memory based on electromagnetically induced transparency. We recover the superoperator associated with the memory, under two different working conditions, by means of a quantum process tomography technique that involves storage of coherent states and their characterization upon retrieval. In this way, we can predict the quantum state retrieved from the memory for any input, for example, the squeezed vacuum or the Fock state. We employ the acquired superoperator to verify the nonclassicality benchmark for the storage of a Gaussian distributed set of coherent states.

Year: 2009 PMID： 19519026 DOI： 10.1103/PhysRevLett.102.203601

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

5. Polarized linewidth-controllable double-trapping electromagnetically induced transparency spectra in a resonant plasmon nanocavity.

Authors: Luojia Wang; Ying Gu; Hongyi Chen; Jia-Yu Zhang; Yiping Cui; Brian D Gerardot; Qihuang Gong
Journal: Sci Rep Date: 2013-10-07 Impact factor: 4.379

5 in total

Memory for light as a quantum process.

1. Efficient quantum memory for light.

2. All-optical reversible single-photon isolation at room temperature.

3. Quantum Process Tomography of an Optically-Controlled Kerr Non-linearity.

4. Establishing and storing of deterministic quantum entanglement among three distant atomic ensembles.

5. Polarized linewidth-controllable double-trapping electromagnetically induced transparency spectra in a resonant plasmon nanocavity.