Photonic integrated circuits (PICs) are key to advancing quantum technologies for secure communications. They offer inherent stability, low losses, and compactness compared to standard fiber-based and free-space systems. Our research demonstrates PICs' effectiveness in enhancing quantum communications; we implement a three-state BB84 protocol with a decoy-state method, and we employ an integrated receiver and superconducting nanowire single-photon detectors to achieve technological advancements. One of the most notable results is the extraction of a secret key over a 45 dB channel attenuation. This achievement in the maximum covered distance signifies the potential of integrated photonics to advance the field of quantum communication.
Quantum key distribution with a borosilicate-glass-matrix integrated photonic receiver / Guarda, Giulia; Ribezzo, Domenico; Occhipinti, Tommaso; Zavatta, Alessandro; Bacco, Davide. - In: PHYSICAL REVIEW A. - ISSN 2469-9926. - ELETTRONICO. - 110:(2024), pp. 042605.0-042605.0. [10.1103/physreva.110.042605]
Quantum key distribution with a borosilicate-glass-matrix integrated photonic receiver
Guarda, Giulia;Ribezzo, Domenico;Bacco, Davide
2024
Abstract
Photonic integrated circuits (PICs) are key to advancing quantum technologies for secure communications. They offer inherent stability, low losses, and compactness compared to standard fiber-based and free-space systems. Our research demonstrates PICs' effectiveness in enhancing quantum communications; we implement a three-state BB84 protocol with a decoy-state method, and we employ an integrated receiver and superconducting nanowire single-photon detectors to achieve technological advancements. One of the most notable results is the extraction of a secret key over a 45 dB channel attenuation. This achievement in the maximum covered distance signifies the potential of integrated photonics to advance the field of quantum communication.
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