English

Future proofing network encryption technology with continuous-variable quantum key distribution

Quantum Physics 2024-09-17 v2

Abstract

We demonstrate a proof-of-concept establishment of quantum-secure data transfer links in field trials at two locations in Denmark: on the campus of Technical University of Denmark in Lyngby and between power grid nodes owned and operated by Energinet in Odense. Several different links, implemented physically using optical ground wires, underground fibers as well as their combinations, were investigated. Coherent `quantum' states at 1550 nm, prepared and measured using a semi-autonomous continuous-variable quantum key distribution (CVQKD) prototype, were multiplexed in wavelength with `classical' 100Gbps encrypted data traffic from a pair of commercial layer-2 network encryption devices operating at around 1300 nm. Under the assumptions of real-time data processing, we estimate average secret key rates of 434.8,148.6434.8, 148.6, and 78.378.3 kbps in the asymptotic limit for diverse channels with losses (at 1550 nm) of 4.1, 5.5, and 6.7 dB, respectively. The demonstrations permit an evaluation of the prototype's tolerance to harsh field conditions and showcase that CVQKD can serve as an additional layer to protect sensitive network traffic propagating on insecure channels.

Keywords

Cite

@article{arxiv.2402.18881,
  title  = {Future proofing network encryption technology with continuous-variable quantum key distribution},
  author = {Nitin Jain and Hou-Man Chin and Adnan A. E. Hajomer and Dev Null and Henrik Larfort and Naja Lautrup Nysom and Erik Bidstrup and Ulrik L. Andersen and Tobias Gehring},
  journal= {arXiv preprint arXiv:2402.18881},
  year   = {2024}
}

Comments

Major revision: Added new figure and text to elaborate the influence of the high-noise environment in which the CVQKD devices were deployed; Updated secret key rates after fixing errors in parameter estimation; Moved details of the SOP optimization to a supplemental document

R2 v1 2026-06-28T15:04:09.054Z