Trojan horse attack free fault-tolerant quantum key distribution protocols using GHZ states
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Publication:332568
DOI10.1007/S10773-016-3028-5zbMath1348.81197OpenAlexW2343053122MaRDI QIDQ332568
Tzonelih Hwang, Chun-Wei Yang, Chih-Hung Chang
Publication date: 8 November 2016
Published in: International Journal of Theoretical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10773-016-3028-5
quantum cryptographyGHZ statequantum key distributioncollective noiseGHZ-like stateTrojan horse attack
Related Items (8)
Measurement-device-independent quantum key agreement against collective noisy channel ⋮ Quantum secure direct communication against collective noise based on W states ⋮ Resource-saving quantum key distribution based on three-photon matrix product states ⋮ Quantum key distribution with high order Fibonacci-like orbital angular momentum states ⋮ Two-party quantum key agreement protocols under collective noise channel ⋮ Fault-tolerant measurement-device-independent quantum key distribution in a decoherence-free subspace ⋮ Cryptanalysis of Zhang et al's quantum private comparison and the improvement ⋮ Quantum key agreement with Bell states and cluster states under collective noise channels
Cites Work
- Quantum cryptography: public key distribution and coin tossing
- Fault-tolerant high-capacity quantum key distribution over a collective-noise channel using extended unitary operations
- Eavesdropping on the two-way quantum communication protocols with invisible photons
- Bell state entanglement swappings over collective noises and their applications on quantum cryptography
- Fault tolerant quantum key distributions using entanglement swapping of GHZ states over collective-noise channels
- Trojan horse attack free fault-tolerant quantum key distribution protocols
- FAULT-TOLERATE QUANTUM KEY DISTRIBUTION OVER A COLLECTIVE-NOISE CHANNEL
- FAULT TOLERANT QUANTUM KEY DISTRIBUTION BASED ON QUANTUM DENSE CODING WITH COLLECTIVE NOISE
- STABLE AND DETERMINISTIC QUANTUM KEY DISTRIBUTION BASED ON DIFFERENTIAL PHASE SHIFT
- Quantum cryptography using any two nonorthogonal states
- AN EFFICIENT MULTIPARTY QUANTUM KEY DISTRIBUTION SCHEME
- Theory of Cryptography
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