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Literature DB >> 19498949

Translation of quantum states by four-wave mixing in fibers.

C McKinstrie, J Harvey, S Radic, M Raymer.

Abstract

Optical frequency conversion by four-wave mixing (Bragg scattering) in a fiber is considered. If the frequencies and polarizations of the waves are chosen judiciously, Bragg scattering enables the translation of individual and entangled states, without the noise pollution associated with parametric amplification (modulation instability or phase conjugation), and with reduced noise pollution associated with stimulated Raman scattering.

Year: 2005 PMID： 19498949 DOI： 10.1364/opex.13.009131

Source DB: PubMed Journal: Opt Express ISSN： 1094-4087 Impact factor: 3.894

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Cited

6 in total

1. Tunable quantum beat of single photons enabled by nonlinear nanophotonics.

Authors: Qing Li; Anshuman Singh; Xiyuan Lu; John Lawall; Varun Verma; Richard Mirin; Sae Woo Nam; Kartik Srinivasan
Journal: Phys Rev Appl Date: 2019 Impact factor: 4.985

2. Proposal for noise-free visible-telecom quantum frequency conversion through third-order sum and difference frequency generation.

Authors: Xiyuan Lu; Gregory Moille; Ashutosh Rao; Kartik Srinivasan
Journal: Opt Lett Date: 2021-01-15 Impact factor: 3.776

Translation of quantum states by four-wave mixing in fibers.

1. Tunable quantum beat of single photons enabled by nonlinear nanophotonics.

2. Proposal for noise-free visible-telecom quantum frequency conversion through third-order sum and difference frequency generation.

3. Phase matching as a gate for photon entanglement.

4. Enhanced-contrast optical readout in ultrafast broadband Raman quantum memories.

5. Frequency multiplexing for quasi-deterministic heralded single-photon sources.

6. An integrated photonic circuit for color qubit preparation by third-order nonlinear interactions.