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Post-processing optimization for continuous-variable quantum key distribution
L., Gyongyosi ✉ [Gyöngyösi, László (Informatika), szerző] Hálózati Rendszerek és Szolgáltatások Tanszék (BME / VIK)
Angol nyelvű Szakcikk (Folyóiratcikk) Tudományos
Megjelent:
THEORETICAL COMPUTER SCIENCE 0304-3975 1879-2294
893
pp. 146-158
2021
SJR Scopus - Computer Science (miscellaneous): Q2
Azonosítók
MTMT: 32204289
DOI:
10.1016/j.tcs.2021.08.023
WoS:
000710180500010
Scopus:
85114686983
Egyéb URL:
https://linkinghub.elsevier.com/retrieve/pii/S0304397521004941
The performance of a continuous-variable quantum key distribution (CVQKD) protocol depends on the efficiency of the post-processing of measurement results. The post-processing methods extract statistical information from the raw data, establish the mutual knowledge between the parties, and produce a final key that provides absolute security. The post-processing phase is a bottleneck in CVQKD with crucial importance to the efficiency and protocol attributes. Post-processing uses the raw data of the parties generated by the quantum-level transmission and a classical authenticated channel to generate a secret key between the parties. The current reconciliation procedures require high-complexity coding with moderate resulting efficiency. Here we define an optimization method for post-processing in continuous-variable quantum key distribution. The reconciliation method achieves additive Gaussian noise on the random secret for arbitrarily low dimensional blocks. The model consumes all information from the raw data blocks to provide maximal efficiency and security via standard operations. The results can be realized by generic Gaussian coding schemes, allowing an easily implementation for experimental CVQKD protocols. © 2021 The Author(s)
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2025-01-19 17:16
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