Optical quantum communications: an experimental approach

Quantum laws can be used to implement secure communication channels; this has been named quantum cryptography. In quantum cryptography the security does not depend of limited computational power, but is inherent to the laws that govern the propagation and detection of single and entangled photons. W...

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Bibliographic Details
Main Author: Pinto, Armando N. (author)
Other Authors: Almeida, Alvaro J. (author), Silva, Nuno A. (author), Muga, Nelson J. (author), Martins, Luis M. (author)
Format: article
Language:eng
Published: 1000
Subjects:
Photon Source
Four-Wave Mixing
Polarization
Quantum Communication
Online Access:http://hdl.handle.net/10773/5967
Country:Portugal
Oai:oai:ria.ua.pt:10773/5967
Description
Summary:Quantum laws can be used to implement secure communication channels; this has been named quantum cryptography. In quantum cryptography the security does not depend of limited computational power, but is inherent to the laws that govern the propagation and detection of single and entangled photons. We show how single and entangled photon-pairs can be efficiently generated using four-wave mixing in optical fibers. We analyze the source statistics, degree of entanglement and impact of spontaneous Raman scattering. By coding information in the photons polarization we are able to transmit quantum information over 20 km of standard single mode fiber.

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