Chinese Journal of Quantum Electronics, Volume. 40, Issue 4, 541(2023)
Four
[1] Lucamarini M, Yuan Z L, Dynes J F et al. Overcoming the rate-distance limit of quantum key distribution without quantum repeaters[J]. Nature, 557, 400-403(2018).
[2] Sha Y T, Feng B, Jia W et al. A method to eliminate influence of fluctuation of light source on performance of quantum key distribution[J]. Chinese Journal of Quantum Electronics, 37, 57-62(2020).
[3] Jiang H H, Feng B, Lu M et al. Round-robin differential-phase-shift quantum key distribution without three-photon pulses[J]. Chinese Journal of Quantum Electronics, 37, 172-178(2020).
[4] Li F Y, Wang D, Wang S et al. Effect of electromagnetic disturbance on the practical QKD system in the smart grid[J]. Chinese Physics B, 23, 124201(2014).
[5] Ma X F, Zeng P, Zhou H Y. Phase-matching quantum key distribution[J]. Physical Review X, 8, 031043(2018).
[6] Wang X B, Yu Z W, Hu X L. Twin-field quantum key distribution with large misalignment error[J]. Physical Review A, 98, 062323(2018).
[7] Cui C H, Yin Z Q, Wang R et al. Twin-field quantum key distribution without phase postselection[J]. Physical Review Applied, 11, 034053(2019).
[8] Wang S, He D Y, Yin Z Q et al. Beating the fundamental rate-distance limit in a proof-of-principle quantum key distribution system[J]. Physical Review X, 9, 021046(2019).
[9] Curty M, Azuma K, Lo H K. Simple security proof of twin-field type quantum key distribution protocol[J]. NPJ Quantum Information, 5, 64(2019).
[11] Chen J P, Zhang C, Liu Y et al. Sending-or-not-sending with independent lasers: Secure twin-field quantum key distribution over 509 km[J]. Physical Review Letters, 124, 070501(2020).
[12] Wang X B. Decoy-state protocol for quantum cryptography with four different intensities of coherent light[J]. Physical Review A, 72, 012322(2005).
[13] Yu Z W, Zhou Y H, Wang X B. Three-intensity decoy-state method for measurement-device-independent quantum key distribution[J]. Physical Review A, 88, 062339(2013).
[14] Wang L, Zhao S M, Gong L Y et al. Free-space measurement-device-independent quantum-key-distribution protocol using decoy states with orbital angular momentum[J]. Chinese Physics B, 24, 120307(2015).
[15] Zhang Y Y, Bao W S, Zhou C et al. Practical round-robin differential phase-shift quantum key distribution[J]. Optics Express, 24, 20763-20773(2016).
[16] Zhou Y H, Yu Z W, Wang X B. Making the decoy-state measurement-device-independent quantum key distribution practically useful[J]. Physical Review A, 93, 042324(2016).
[17] Yu Y, Wang L, Zhao S M et al. Decoy-state phase-matching quantum key distribution with source errors[J]. Optics Express, 29, 2227-2243(2021).
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Sheng WANG, Xiaoming FANG, Yu LIN, Tianbing ZHANG, Bao FENG, Yang YU, Le WANG. Four
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Received: Apr. 27, 2021
Accepted: --
Published Online: Aug. 22, 2023
The Author Email: WANG Le (lewang@njupt.edu.cn)