Quantum Key Distribution with Displaced Thermal States

Author:

Walton Adam1ORCID,Ghesquière Anne1ORCID,Varcoe Benjamin T. H.1ORCID

Affiliation:

1. School of Physics and Astronomy, University of Leeds, Leeds LS2 9JT, UK

Abstract

Secret key exchange relies on the creation of correlated signals, serving as the raw resource for secure communication. Thermal states exhibit Hanbury Brown and Twiss correlations, which offer a promising avenue for generating such signals. In this paper, we present an experimental implementation of a central broadcast thermal-state quantum key distribution (QKD) protocol in the microwave region. Our objective is to showcase a straightforward method of QKD utilizing readily available broadcasting equipment. Unlike conventional approaches to thermal-state QKD, we leverage displaced thermal states. These states enable us to share the output of a thermal source among Alice, Bob, and Eve via both waveguide channels and free space. Through measurement and conversion into bit strings, our protocol produces key-ready bit strings without the need for specialized equipment. By harnessing the inherent noise in thermal broadcasts, our setup facilitates the recovery of distinct bit strings by all parties involved.

Funder

Northern Triangle Initiative Connecting capability fund

UK Quantum Technology Hub for Quantum Communications Technologies

Publisher

MDPI AG

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