An efficient circle-type multiparty quantum key agreement protocol with single particles
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Publication:5125372
DOI10.1142/S0217979220501994zbMath1443.81023OpenAlexW3062652379MaRDI QIDQ5125372
Cai Zhang, Run-Hua Tang, Dong Yang Long
Publication date: 6 October 2020
Published in: International Journal of Modern Physics B (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0217979220501994
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Cites Work
- Efficient multi-party quantum key agreement by cluster states
- Multi-party quantum key agreement by an entangled six-qubit state
- Collusive attacks to ``circle-type multi-party quantum key agreement protocols
- Multiparty quantum key agreement with single particles
- New quantum private comparison protocol using EPR pairs
- Quantum secure direct communication with two-photon four-qubit cluster states
- Quantum cryptography: public key distribution and coin tossing
- Novel multiparty quantum key agreement protocol with GHZ states
- Protocols of quantum key agreement solely using Bell states and Bell measurement
- Improvement of ``Novel multiparty quantum key agreement protocol with GHZ states
- Novel multi-party quantum key agreement protocol with G-like states and Bell states
- Multi-party quantum key agreement with five-qubit brown states
- Multi-party quantum key agreement protocol secure against collusion attacks
- Quantum private comparison employing single-photon interference
- An efficient and secure arbitrary \(N\)-party quantum key agreement protocol using Bell states
- Multi-party quantum key agreement without entanglement
- Multiparty quantum key agreement with four-qubit symmetric W state
- A new proof for the existence of mutually unbiased bases
- Quantum secret sharing of secure direct communication using one-time pad
- Multi-party quantum key agreement with Bell states and Bell measurements
- Multi-user private comparison protocol using GHZ class states
- Multi-party traveling-mode quantum key agreement protocols immune to collusive attack
- Multi-party quantum key agreement with four-qubit cluster states
- Cryptanalysis of a multi-party quantum key agreement protocol with single particles
- High-efficiency three-party quantum key agreement protocol with quantum dense coding and Bell states
- Quantum private comparison with a malicious third party
- Improvements on ``multiparty quantum key agreement with single particles
- Experimental quantum cryptography.
- Quantum Key Distribution with Classical Bob
- New directions in cryptography
- Quantum secret sharing with classical Bobs
- Quantum secret sharing
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