Hypercube topology for quantum-walk-based one-way QKD yields significantly higher security and noise resistance than the circular state-of-the-art in simulations.
Quantum cryptography without bell’s theorem
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Simulations show noise lowers CHSH values in DIQKD while Cascade error correction reduces bit-error rates, with most fixes occurring in the first few iterative rounds.
citing papers explorer
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Strengthening security and noise resistance in one-way quantum key distribution protocols through hypercube-based quantum walks
Hypercube topology for quantum-walk-based one-way QKD yields significantly higher security and noise resistance than the circular state-of-the-art in simulations.
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On the Interplay Between Noise, Bell Violation, and Cascade Error Correction in Device-Independent Quantum Key Distribution
Simulations show noise lowers CHSH values in DIQKD while Cascade error correction reduces bit-error rates, with most fixes occurring in the first few iterative rounds.