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Literature DB >> 19498811

1.5-microm band quantum-correlated photon pair generation in dispersion-shifted fiber: suppression of noise photons by cooling fiber.

Abstract

Spontaneous four-wave mixing in a dispersion-shifted fiber (DSF) is a promising approach for generating quantum-correlated photon pairs in the 1.5 microm band. However, it has been reported that noise photons generated by the spontaneous Raman scattering process degrade the quantum correlation of the generated photons. This paper describes the characteristics of quantum-correlated photon pair generation in a DSF cooled by liquid nitrogen. With this technique, the number of noise photons was sufficiently suppressed and the ratio of true coincidence to accidental coincidence was increased to ~30.

Entities: Chemical

Year: 2005 PMID： 19498811 DOI： 10.1364/opex.13.007832

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

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Cited

6 in total

1.5-microm band quantum-correlated photon pair generation in dispersion-shifted fiber: suppression of noise photons by cooling fiber.

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

2. Using temperature to reduce noise in quantum frequency conversion.

3. Loss resilience for two-qubit state transmission using distributed phase sensitive amplification.

4. Generation of hyper-entanglement in polarization/energy-time and discrete-frequency/energy-time in optical fibers.

5. Entangled photons from on-chip slow light.

6. Integrated spatial multiplexing of heralded single-photon sources.