Experimental Semi-quantum Key Distribution With Classical Users
Francesco Massa, Preeti Yadav, Amir Moqanaki, Walter O. Krawec, Paulo, Mateus, Nikola Paunkovi\'c, Andr\'e Souto, Philip Walther

TL;DR
This paper introduces a novel semi-quantum key distribution protocol where users are fully classical, utilizing an untrusted quantum server and interaction-free measurements, with a comprehensive security proof and practical experimental considerations.
Contribution
It presents the first semi-quantum key distribution scheme with classical users, leveraging an untrusted server and interaction-free measurements, expanding the understanding of quantum cryptography capabilities.
Findings
Security proof for the protocol under finite-resource conditions
Successful implementation with imperfect photon sources and detectors
Demonstrates feasibility of classical users in quantum key distribution
Abstract
Quantum key distribution, which allows two distant parties to share an unconditionally secure cryptographic key, promises to play an important role in the future of communication. For this reason such technique has attracted many theoretical and experimental efforts, thus becoming one of the most prominent quantum technologies of the last decades. The security of the key relies on quantum mechanics and therefore requires the users to be capable of performing quantum operations, such as state preparation or measurements in multiple bases. A natural question is whether and to what extent these requirements can be relaxed and the quantum capabilities of the users reduced. Here we demonstrate a novel quantum key distribution scheme, where users are fully classical. In our protocol, the quantum operations are performed by an untrusted third party acting as a server, which gives the users…
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