Measurement-device-independent semiquantum key distribution
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Publication:4584400
DOI10.1142/S0219749918500120zbMath1396.81074MaRDI QIDQ4584400
Shengyu Zhang, Wai Hong Chan, Qin Li, Jinjun He, Chunhui Wu
Publication date: 3 September 2018
Published in: International Journal of Quantum Information (Search for Journal in Brave)
Cryptography (94A60) Semiclassical techniques, including WKB and Maslov methods applied to problems in quantum theory (81Q20) Quantum information, communication, networks (quantum-theoretic aspects) (81P45) Quantum cryptography (quantum-theoretic aspects) (81P94)
Related Items (13)
Semi-quantum ring signature protocol based on multi-particle GHZ state ⋮ Semi-quantum cryptography ⋮ Multi‐Party Semi‐Quantum Key Distribution Protocol With Four‐Particle Cluster States ⋮ Three Attacks on the Mediated Semi‐Quantum Key Distribution without Invoking Quantum Measurement ⋮ Cryptanalysis and improvement of semi-quantum dialogue with Bell entangled states ⋮ Cryptanalysis and improvement of the novel quantum scheme for secure two-party distance computation ⋮ Semi-quantum key distribution protocols with GHZ states ⋮ Controlled mutual quantum entity authentication with an untrusted third party ⋮ Limited resource semiquantum secret sharing ⋮ Semi-quantum secure direct communication scheme based on Bell states ⋮ Efficient mediated semi-quantum key distribution ⋮ Semi-quantum identification ⋮ Improved semi-quantum key distribution with two almost-classical users
Cites Work
- Semiquantum key distribution without invoking the classical party's measurement capability
- A proof of the security of quantum key distribution
- Authenticated semi-quantum key distribution protocol using Bell states
- Semiquantum key distribution
- Quantum Key Distribution with Classical Bob
- A public key cryptosystem and a signature scheme based on discrete logarithms
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