The unconditional security in the creation of cryptographic keys obtained by quantum key distribution (QKD) protocols will induce a quantum leap in free-space communication privacy in the same way that we are beginning to realize secure optical fiber connections. However, free-space channels, in particular those with long links and the presence of atmospheric turbulence, are affected by losses, fluctuating transmissivity, and background light that impair the conditions for secure QKD. Here we introduce a method to contrast the atmospheric turbulence in QKD experiments. Our adaptive real time selection (ARTS) technique at the receiver is based on the selection of the intervals with higher channel transmissivity. We demonstrate, using data from the Canary Island 143-km free-space link, that conditions with unacceptable average quantum bit error rate which would prevent the generation of a secure key can be used once parsed according to the instantaneous scintillation using the ARTS technique.

Adaptive real time selection for quantum key distribution in lossy and turbulent free-space channels / VALLONE, GIUSEPPE; MARANGON, DAVIDE GIACOMO; CANALE, MATTEO; SAVORGNAN, ILARIA; BACCO, DAVIDE; BARBIERI, MAURO; Simon Calimani; BARBIERI, CESARE; LAURENTI, NICOLA; VILLORESI, PAOLO. - In: PHYSICAL REVIEW A. - ISSN 1050-2947. - STAMPA. - 91:(2015), pp. 042320-1-042320-6. [10.1103/PhysRevA.91.042320]

Adaptive real time selection for quantum key distribution in lossy and turbulent free-space channels

VALLONE, GIUSEPPE;BACCO, DAVIDE;BARBIERI, CESARE;
2015

Abstract

The unconditional security in the creation of cryptographic keys obtained by quantum key distribution (QKD) protocols will induce a quantum leap in free-space communication privacy in the same way that we are beginning to realize secure optical fiber connections. However, free-space channels, in particular those with long links and the presence of atmospheric turbulence, are affected by losses, fluctuating transmissivity, and background light that impair the conditions for secure QKD. Here we introduce a method to contrast the atmospheric turbulence in QKD experiments. Our adaptive real time selection (ARTS) technique at the receiver is based on the selection of the intervals with higher channel transmissivity. We demonstrate, using data from the Canary Island 143-km free-space link, that conditions with unacceptable average quantum bit error rate which would prevent the generation of a secure key can be used once parsed according to the instantaneous scintillation using the ARTS technique.
91
042320-1
042320-6
VALLONE, GIUSEPPE; MARANGON, DAVIDE GIACOMO; CANALE, MATTEO; SAVORGNAN, ILARIA; BACCO, DAVIDE; BARBIERI, MAURO; Simon Calimani; BARBIERI, CESARE; LAURENTI, NICOLA; VILLORESI, PAOLO
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2158/1286240
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