Quantum cryptography

Gisin, Nicolas; Ribordy, Grégoire; Tittel, Wolfgang; Zbinden, Hugo

doi:10.1103/RevModPhys.74.145

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Quantum cryptography

Author(s): Nicolas Gisin , Grégoire Ribordy , Wolfgang Tittel , Hugo Zbinden

Publication date (Electronic): March 8 2002

Journal: Reviews of Modern Physics

Publisher: American Physical Society (APS)

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Teleporting an unknown quantum state via dual classical and Einstein-Podolsky-Rosen channels

Charles Bennett, Gilles Brassard, Claude Crépeau … (1993)

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Communication Theory of Secrecy Systems*

C. Shannon (1949)

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A quantum dot single-photon turnstile device.

P. Michler, A Kiraz, C Becher … (2000)

Quantum communication relies on the availability of light pulses with strong quantum correlations among photons. An example of such an optical source is a single-photon pulse with a vanishing probability for detecting two or more photons. Using pulsed laser excitation of a single quantum dot, a single-photon turnstile device that generates a train of single-photon pulses was demonstrated. For a spectrally isolated quantum dot, nearly 100% of the excitation pulses lead to emission of a single photon, yielding an ideal single-photon source.