Quantum-secured time transfer between precise timing facilities: a field trial with simulated satellite links

Picciariello, Francesco; Vedovato, Francesco; Orsucci, Davide; Dominguez, Pablo Nahuel; Zechel, Thomas; Avesani, Marco; Padovan, Matteo; Foletto, Giulio; Calderaro, Luca; Dequal, Daniele; Shrestha, Amita; Blümel, Ludwig; Furthner, Johann; Vallone, Giuseppe; Villoresi, Paolo; Schmidt, Tobias D.; Moll, Florian

doi:10.1007/s10291-023-01580-9

GPS Solut

2023

DOI: 10.1007/s10291-023-01580-9

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Quantum-secured time transfer between precise timing facilities: a field trial with simulated satellite links

Francesco Picciariello,

Francesco Vedovato,

Davide Orsucci

et al.

Abstract: Global Navigation Satellite Systems (GNSSs), such as GPS and Galileo, provide precise time and space coordinates globally and constitute part of the critical infrastructure of modern society. To reliably operate GNSS, a highly accurate and stable system time is required, such as the one provided by several independent clocks hosted in Precise Timing Facilities (PTFs) around the world. The relative clock offset between PTFs is periodically measured to have a fallback system to synchronize the GNSS satellite clo… Show more

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2024

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Cited by 2 publications

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Quantum Key Distribution for Secure Encryption in Underwater Networks

Lazzarin,

Campagnaro,

Padovan

et al. 2024

OCEANS 2024 - Singapore

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Quantum Key Distribution for Secure Encryption in Underwater Networks

Lazzarin,

Campagnaro,

Padovan

et al. 2024

OCEANS 2024 - Singapore

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Interoperability between free-space and fiber channels for QKD enabled by the intermodal approach

Picciariello,

Karakosta-Amarantidou,

Rossi

et al. 2024

Frontiers in Optics + Laser Science 2024 (FiO, LS)

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Intermodal quantum key distribution (QKD) enables seamless integration of fiber networks and free-space channels, which are essential to create a global quantum network. Here we report on a recent field trial of an intermodal QKD system within a 3-node heterogeneous quantum network, that we presented in details in the work by F. Picciariello et al., arXiv:2310.17441. The network consists of two polarization-based transmitters and a single receiver, where the active channel is alternately switched between a 620-meter free-space link and a 17-kilometer deployed fiber link in the metropolitan area of Padova. The trial evaluates the performance of the free-space channel in relation to the atmospheric turbulence strength. Conducted over several hours during daylight, the trial confirms the interoperability between fiber and free-space channels, achieving a secret key rate on the order of kbps for both types of channels. Notably, the QKD hardware and software function consistently across both channels without requiring different strategies, despite the distinct characteristics of the links. This switching system offers a cost-effective solution for a trusted QKD network by minimizing the number of devices needed across different networks. The results underscore the feasibility of intermodal QKD systems for future quantum networks.

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Quantum-secured time transfer between precise timing facilities: a field trial with simulated satellite links

Cited by 2 publications

References 31 publications

Quantum Key Distribution for Secure Encryption in Underwater Networks

Quantum Key Distribution for Secure Encryption in Underwater Networks

Interoperability between free-space and fiber channels for QKD enabled by the intermodal approach

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