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Fuguo Deng, G. Long, Hong-Yu Zhou (2005)
An efficient quantum secret sharing scheme with Einstein–Podolsky–Rosen pairsPhysics Letters A, 340
Fuguo Deng, Xihan Li, Hong-Yu Zhou (2006)
Efficient high-capacity quantum secret sharing with two-photon entanglementPhysics Letters A, 372
Li Xiao, G. Long, Fuguo Deng, Jian-Wei Pan (2004)
Efficient multiparty quantum-secret-sharing schemesPhysical Review A, 69
Q. Cai (2005)
Eavesdropping on the two-way quantum communication protocols with invisible photonsPhysics Letters A, 351
Shuai Chen, Yu-Ao Chen, Bo Zhao, Zhen-Sheng Yuan, J. Schmiedmayer, Jian-Wei Pan (2007)
Demonstration of a stable atom-photon entanglement source for quantum repeaters.Physical review letters, 99 18
G. Guo, G. Guo (2002)
Quantum secret sharing without entanglementPhysics Letters A, 310
S. Bose, V. Vedral, P. Knight (1997)
Multiparticle generalization of entanglement swappingPhysical Review A, 57
S. Wang, Song-Kong Chong, T. Hwang (2010)
On "multiparty quantum secret sharing with Bell states and Bell measurements"Optics Communications, 283
C. Monroe, D. Meekhof, B. King, W. Itano, D. Wineland (1995)
Demonstration of a fundamental quantum logic gate.Physical review letters, 75 25
Tianyin Wang, Q. Wen, Xiubo Chen, F. Guo, F. Zhu (2008)
An efficient and secure multiparty quantum secret sharing scheme based on single photonsOptics Communications, 281
Chun-Wei Yang, Chia-Wei Tsai, T. Hwang (2012)
Thwarting intercept-and-resend attack on Zhang’s quantum secret sharing using collective rotation noisesQuantum Information Processing, 11
N. Gisin, G. Ribordy, W. Tittel, H. Zbinden (2002)
Quantum CryptogrRev. Mod. Phys., 74
Z. 朱, Y. 张, An-Min 付 (2011)
Efficient quantum secret sharing scheme with two-particle entangled statesChinese Physics B, 20
Xihan Li, Fuguo Deng, Hong-Yu Zhou (2006)
Improving the security of secure direct communication based on the secret transmitting order of particlesPhysical Review A, 74
T. Jennewein, C. Simon, G. Weihs, Harald WeinfurterD, Anton Vienna, U. Munich (1999)
Quantum cryptography with entangled photonsPhysical review letters, 84 20
(2003)
Construction of a quantum repeater with linear optics
L. Hsu (2003)
Quantum secret-sharing protocol based on Grover's algorithmPhysical Review A, 68
Jia-Hao Chen, Kuo-Chang Lee, T. Hwang (2009)
THE ENHANCEMENT OF ZHOU et al.'s QUANTUM SECRET SHARING PROTOCOLInternational Journal of Modern Physics C, 20
L. Hsu, Che Li (2005)
Quantum secret sharing using product statesPhysical Review A, 71
Jian-Wei Pan, D. Bouwmeester, H. Weinfurter, A. Zeilinger (1998)
Experimental Entanglement Swapping: Entangling Photons That Never InteractedPhysical Review Letters, 80
Tianyin Wang, Q. Wen, F. Gao, Song Lin, F. Zhu (2008)
Cryptanalysis and improvement of multiparty quantum secret sharing schemesPhysics Letters A, 373
T. Hwang, C. Hwang, Chun-Wei Yang, Chuan-Ming Li (2011)
Revisiting Deng et al.’s Multiparty Quantum Secret Sharing ProtocolInternational Journal of Theoretical Physics, 50
Yongmin Li, Kuanshou Zhang, K. Peng (2004)
Multiparty secret sharing of quantum information based on entanglement swappingPhysics Letters A, 324
A. Beveratos, R. Brouri, T. Gacoin, A. Villing, J. Poizat, P. Grangier (2002)
Single photon quantum cryptography.Physical review letters, 89 18
Richard Hughes, J. Nordholt, D. Derkacs, C. Peterson (2002)
Practical free-space quantum key distribution over 10 km in daylight and at nightNew Journal of Physics, 4
Zhi Zhao, Tao Yang, Yu-Ao Chen, A. Zhang, Jian-Wei Pan (2003)
Experimental realization of entanglement concentration and a quantum repeater.Physical review letters, 90 20
M. Żukowski, A. Zeilinger, M. Horne, A. Ekert (1993)
"Event-ready-detectors" Bell experiment via entanglement swapping.Physical review letters, 71 26
Jason Lin, T. Hwang (2011)
An enhancement on Shi et al.'s multiparty quantum secret sharing protocolOptics Communications, 284
Fuguo Deng, Hongyu Long (2006)
Circular quantum secret sharingJournal of Physics A, 39
T. Hwang, C. Hwang, Chuan-Ming Li (2011)
Multiparty quantum secret sharing based on GHZ statesPhysica Scripta, 83
Gan Gao (2010)
Simple Collaboration Eavesdropping on the Improved Multiparty Quantum Secret Sharing ProtocolInternational Journal of Theoretical Physics, 49
Zhan-jun Zhang, Yong Li, Z. Man (2004)
Multiparty quantum secret sharingPhysical Review A, 71
Lian-Fang Han, Yi-min Liu, Jun Liu, Zhan-Jun Zhang, Zhan-Jun Zhang (2004)
Multiparty quantum secret sharing of secure direct communication using single photonsOptics Communications, 281
Z.J. Zhang (2005)
Multiparty quantum secret sharing of secure direct communicationPhys. Lett. A, 342
B. Gu, L. Mu, L. Ding, C. Zhang, C. Li (2010)
Fault tolerant three-party quantum secret sharing against collective noiseOpt. Commun., 283
C. Gobby, Z. Yuan, A. Shields (2004)
Quantum key distribution over 122 km of standard telecom fiberApplied Physics Letters, 84
D. Gottesman (1999)
Theory of quantum secret sharingPhysical Review A, 61
Fuguo Deng, Xihan Li, Hong-Yu Zhou, Zhan-jun Zhang (2005)
Improving the security of multiparty quantum secret sharing against Trojan horse attackPhysical Review A, 72
M. Hillery, V. Bužek, A. Berthiaume (1998)
Quantum secret sharingPhysical Review A, 59
D. Stucki, N. Gisin, O. Guinnard, G. Ribordy, H. Zbinden (2002)
Quantum key distribution over 67 km with a plug&play systemNew Journal of Physics, 4
Ying Sun, Q. Wen, F. Gao, Xiubo Chen, F. Zhu (2009)
Multiparty quantum secret sharing based on Bell measurementOptics Communications, 282
Yazhen Wang (2012)
Quantum Computation and Quantum InformationStatistical Science, 27
谢朝任, 蔡家纬, 黄宗立 (2010)
Quantum Secret Sharing Using GHZ-Like State
Gu Bin, Chuang Li, Xue Fei, Yu-Lin Chen (2009)
High-capacity three-party quantum secret sharing with superdense codingChinese Physics B, 18
P. Zhou, Xihan Li, Yu-Jie Liang, Fuguo Deng, Hong-Yu Zhou (2007)
Multiparty quantum secret sharing with pure entangled states and decoy photonsPhysica A-statistical Mechanics and Its Applications, 381
Z. Zhang, Z. Man (2004)
Multiparty quantum secret sharing of classical messages based on entanglement swappingPhysical Review A, 72
Zhan-jun Zhang, Gan Gao, Xin Wang, L. Han, Shou-hua Shi (2007)
Multiparty quantum secret sharing based on the improved Boström–Felbinger protocolOptics Communications, 269
Chia-Wei Tsai, T. Hwang (2012)
Multi-party quantum secret sharing based on two special entangled statesScience China Physics, Mechanics and Astronomy, 55
This study presents a novel circular quantum secret sharing (QSS) protocol based on the controlled-NOT (CNOT) gate for remote agents. A CNOT gate is able to entangle a Bell state and several single photons to form a multi-particle GHZ state. Using this technique, the proposed QSS scheme is designed in purpose to be congenitally free from the Trojan horse attacks. Moreover, for each shared bit among n party, the qubit efficiency has reached $${\frac{1}{2n+1}}$$ , which is the best among the current circular QSS’s.
Quantum Information Processing – Springer Journals
Published: Apr 28, 2012
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