Performance evaluation of three QKD protocols in non-turbulent underwater channels via analytical QBER derivation for BBM92 and Monte Carlo validation across water types.
Security of quantum key distribution with entangled photons against individual attacks,
2 Pith papers cite this work. Polarity classification is still indexing.
fields
quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Derives closed-form QBER and SKR expressions for BBM92 QKD using non-maximally entangled states in underwater channels modeled by amplitude-damping plus depolarizing Kraus operators, validated by Monte Carlo simulations across clear ocean, coastal, and turbid water.
citing papers explorer
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Performance Analysis of Underwater Quantum Key Distribution Protocols: BB84, SARG04, and BBM92
Performance evaluation of three QKD protocols in non-turbulent underwater channels via analytical QBER derivation for BBM92 and Monte Carlo validation across water types.
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Non-Maximally Entangled States for Quantum Key Distribution in Underwater Channels: BBM92 Protocol via Kraus Operators
Derives closed-form QBER and SKR expressions for BBM92 QKD using non-maximally entangled states in underwater channels modeled by amplitude-damping plus depolarizing Kraus operators, validated by Monte Carlo simulations across clear ocean, coastal, and turbid water.