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Main Authors: Brzosko, Adam, Woodward, Robert I, Lo, Yuen San, Pittaluga, Mirko, Smith, Peter Raymond, Dynes, James F, Shields, Andrew J
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.18646
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author Brzosko, Adam
Woodward, Robert I
Lo, Yuen San
Pittaluga, Mirko
Smith, Peter Raymond
Dynes, James F
Shields, Andrew J
author_facet Brzosko, Adam
Woodward, Robert I
Lo, Yuen San
Pittaluga, Mirko
Smith, Peter Raymond
Dynes, James F
Shields, Andrew J
contents We report a proof-of-principle realisation of a decoy-state BB84 QKD protocol with phase encoding over a record-breaking 17 km of MMF at a rate of 193 kbits/s, as well as over 1 Mbit/s at a distance of 1 km. These results suggest that QKD can be deployed over MMF in metropolitan-scale telecommunication connections. Such MMF metropolitan networks are ubiquitous - thus this advance could pave the way to wide scale metropolitan deployment. We also assess the advantages of adapting the OM3 channel using mode-matching photonic lanterns on the QBER, signal gain, and key rate and compare different encoding techniques in light of MMF propagation effects. This work confirms the suitability of current QKD technology for use in existing MMF links, unlocking new opportunities for quantum applications using legacy fibre.
format Preprint
id arxiv_https___arxiv_org_abs_2410_18646
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Metro-scale QKD using multimode fiber
Brzosko, Adam
Woodward, Robert I
Lo, Yuen San
Pittaluga, Mirko
Smith, Peter Raymond
Dynes, James F
Shields, Andrew J
Quantum Physics
We report a proof-of-principle realisation of a decoy-state BB84 QKD protocol with phase encoding over a record-breaking 17 km of MMF at a rate of 193 kbits/s, as well as over 1 Mbit/s at a distance of 1 km. These results suggest that QKD can be deployed over MMF in metropolitan-scale telecommunication connections. Such MMF metropolitan networks are ubiquitous - thus this advance could pave the way to wide scale metropolitan deployment. We also assess the advantages of adapting the OM3 channel using mode-matching photonic lanterns on the QBER, signal gain, and key rate and compare different encoding techniques in light of MMF propagation effects. This work confirms the suitability of current QKD technology for use in existing MMF links, unlocking new opportunities for quantum applications using legacy fibre.
title Metro-scale QKD using multimode fiber
topic Quantum Physics
url https://arxiv.org/abs/2410.18646