Open AccessFake calibration attack using a beam sampler in a continuous variable-quantum key distribution system
Author(s) -
Josué Aarón López-Leyva,
Ariana Talamantes-Álvarez,
Edwin Mejía,
J. Estrada,
M. Ponce Camacho,
Vallet Garcia,
Leiva Casemiro Oliveira
Publication year - 2020
Publication title -
revista mexicana de física
Language(s) - English
Resource type - Journals
eISSN - 2683-2224
pISSN - 0035-001X
DOI - 10.31349/revmexfis.66.228
Subject(s) - quantum key distribution , quantum error correction , quantum , quantum limit , calibration , computer science , physics , quantum information , quantum mechanics
A Fake Calibration Attack process for a Continuous Variable-Quantum Key Distribution system using a Beam Sampler is presented. The Fake Calibration Attack allows a calibration that balances the Standard Quantum Limit for all the optical path in the experiment (differential Standard Quantum Limit is ≈ 0.39 dB) allowing Eve to acquire ≈ 0.0671 for a particular information quadrature which establishes a Quantum Bit Error Rate ≈ 5.8%. As a final result, the balancing of the Standard Quantum Limit for both states of polarization signals allows maintaining the overall Quantum Bit Error Rate at a particular value ≈ 3%, which implies an important basis for detecting a potential spy considering the minimum Quantum Bit Error Rate.
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