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Optical communication noise rejection using correlated photons
Authors:
Deborah Jackson a;
George Hockney a;
Jonathan Dowling a
| Affiliation: | a Quantum Computing Technologies Group, Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, California 91109-8099, USA; e-mail: Deborah.Jackson@jpl.nasa.gov. |
DOI:
10.1080/0950034021000011338
Publication Frequency:
21 issues per year
Subjects:
Fibre Optics;
Optics & Optoelectronics.;
Optics, Optoelectronic Effects, Devices & Systems;
Optoelectronics;
Theoretical Physics;
Number of References: 7
Formats available:
PDF
(English)
Previously published as:
Optica Acta: International Journal of Optics
(0030-3909)
until 1987
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Abstract
This paper describes a completely new way to perform noise rejection using a two-photon sensitive detector and taking advantage of the properties of correlated photons to improve an optical communications link in the presence of uncorrelated noise. In particular, a detailed analysis is made of the case where a classical link would be saturated by an intense background, such as when a satellite is in front of the sun, and identifies a regime where the quantum correlating system has superior performance.
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