[4] Hillery M, Buzek V, Berthiaume A. Quantum secret sharing [J]. Physical Review A, 1999, 59(3): 1829-1834.
[5] Karlsson A, Koashi M, Imoto N. Quantum entanglement for secret sharing and secret splitting [J]. Physical Review A, 1999, 59(1): 162-168.
[6] Xiao L, Long G L, Deng F G, et al. Efficient multiparty quantum-secret-sharing schemes [J]. Physical Review A, 2004, 69(5): 052307-052311.
[7] Schmid C, Trojek P, Bourennane M, et al. Experimental single qubit quantum secret sharing [J]. Physical Review Letters, 2005, 95(23): 230505-230508.
[8] Liu L L, Tsai C W, Hwang T. Quantum secret sharing using symmetric W state [J]. International Journal of Theoretical Physics, 2012, 51: 2291-2306.
[11] Shih H C, Lee K C, Hwang T. New efficient three-party quantum key distribution protocols [J]. IEEE Journal of Selected Topics in Quantum Electronics, 2009, 15(6): 1602-1606.
[15] Lin J, Yang C W, et al. Intercept-resend attacks on semi-quantum secret sharing and the improvements [J]. International Journal of Theoretical Physics, 2013, 52: 156-162.
[16] Qin S J, Gao F, Guo F Z, et al. Comment on “Two-way protocols for quantum cryptography with a nonmaximally entangled qubit pair”[J]. Physical Review A, 2010, 82(3): 036301-036303.
[17] Song T T, Wen Q Y, Gao F, et al. Participant attack and improvement to multiparty quantum secret sharing based on GHZ states [J]. International Journal of Theoretical Physics, 2013, 52: 293-301.
[18] Deng F G, Li X H, Zhou H Y, et al. Improving the security of multiparty quantum secret sharing against Trojan horse attack [J]. Physical Review A, 2005, 72(4): 044302-044305.
[19] Yang Y G, Jia X, Xia J, et al. Comment on “Quantum secure direct communication with authentication expansion using single photons”[J]. International Journal of Theoretical Physics, 2012, 51: 3681-3687.
[20] Gao F, Qin S J, Guo F Z, et al. Dense-coding attack on three-party quantum key distribution protocols [J]. IEEE Journal of Quantum Electronics, 2011, 47(5): 630-635.