Splitting Unknown Qubit State Using Five-Qubit Entangled State
详细信息 查看全文
- 作者:Dong-fen Li ; Rui-jin Wang ; Feng-li Zhang…
- 关键词:Quantum information splitting ; Von ; Neumann measurement ; Bell ; State measurements ; Five ; qubit entangled state
- 刊名:International Journal of Theoretical Physics
- 出版年:2016
- 出版时间:April 2016
- 年:2016
- 卷:55
- 期:4
- 页码:1962-1972
- 全文大小:176 KB
- 参考文献:1.Cao, Z.L., Yang, M., Guo, G.C.: The scheme for realizing probabilistic teleportation of atomic states and purifying the quantum channel on cavity QED. Phys. Lett. A 308(5), 349–354 (2003)ADS MathSciNet CrossRef MATH
2.Bennett, C.H., Wiesner, S.J.: Communication via one-and two-particle operators on Einstein-podolsky-Rosen states. Phys. Rev. Lett 69(20), 2881–2884 (1992)ADS MathSciNet CrossRef MATH
3.Rao, D.D.B., Ghosh, S., Panigrahi, P.K.: Generation of entangled channels for perfect teleprotation using multielectron quantum dots. Phys. Rev. A 78(4), 042328 (2008)ADS CrossRef
4.Ye, L., Guo, G.C.: Scheme for implementing quantum dense coding in cavity QED. Phys. Rev. A 71(3), 034304 (2005)ADS CrossRef
5.Samal, J.R., Gupta, M., Panigrahi, P.K., et al.: Non-destructive discrimination of Bell states by NMR using a single ancillaqubit. J. Phys. BAt. Mol. Opt. Phys. 43, 095508 (2010)ADS CrossRef
6.Prasath, E.S., Muralidharan, S., Mitra, C., et al.: Multipartite entangled magnon states as quantum communication channels. Quantum Inf. Process. 11(2), 397–410 (2012)MathSciNet CrossRef
7.Shi, R., Huang, L., Yang, W., et al.: Effcient symmetric five-party quantum state sharing of an arbitrary m-qubitstate. Int. J. Theor. Phys. 50(11), 3329–3336 (2011)MathSciNet CrossRef MATH
8.Li, Y.H., Liu, J.C., Nie, Y.Y.: Quantum teleportation and quantum information splitting by using a genuinely entangled six-qubitstate. Int. J. Theor. Phys. 49(10), 2592–2599 (2010)MathSciNet CrossRef MATH
9.Shi, R.H., Huang, L.S., Yang, W., et al.: Asymmetric multi-party quantum state sharing of an arbitrary m-qubitstate. Quantum Inf. Process. 10(1), 53–61 (2011)MathSciNet CrossRef MATH
10.Nie, Y.Y., Li, Y.H., Liu, J.C., et al.: Quantum information splitting of an arbitrary three-qubit state by using two four-qubit cluster states. Quantum Inf. Process. 10(3), 297–305 (2011)MathSciNet CrossRef MATH
11.Nie, Y., Li, Y., Liu, J., et al.: Quantum information splitting of an arbitrary three-qubit state by using a genuinely entangled five-qubit state and a Bell-state. Quantum Inf. Process. 11(2), 563–569 (2012)MathSciNet CrossRef MATH
12.Hou, K., Liu, G.H., Zhang, X.Y., et al.: An efficient scheme for five-party quantum state sharing of an arbitrary m-qubitsteta using multiqubit cluster states. Quantum Inf. Process. 10(4), 463–473 (2011)MathSciNet CrossRef MATH
13.Saha, D., Panigrahi, P.K.: N-qubit quantum teleportation,information splitting and superdense coding through the composite GHZ-Bell channel. Quantum Inf. Process. 11(2), 615–628 (2012)MathSciNet CrossRef
14.Man, Z.X., Xia, Y.J., An, N.B.: Quantum state sharing of an arbitrary multi-qubit state using non-maximally entangled GHZ states. Eur. Phys. J. D 42(2), 333–340 (2007)ADS MathSciNet CrossRef
15.Zheng, S.B.: Splitting quantum information via W states. Phys. Rev. A. 74, 054303 (2006)ADS CrossRef
16.Muralidharan, S., Panigrahi, P.K.: Quantum-information splitting using multipartite cluster states. Phys. Rev. A 78, 062333 (2008)ADS CrossRef
17.Menon, J.V., Paul, N., Karumanchi, S., et al.: Quantum tasks using six qubit cluster states. arXiv:0906.3874 (2009)
18.Muralidharan, S., Jain, S., Panigrahi, P.K.: Splitting of quantum information using N-qubit linear cluster states. arXiv:0904.0563 (2011)
19.Hillery, M., Buzek, V., Berthiaume, A.: Quantum secret sharing. Phys. Rev. A 59, 1829–1834 (1999)ADS MathSciNet CrossRef
20.Zhang, B., Liu, Y.: Economic and deterministic quantum teleportation of arbitrary bipartite pure and mixed state with shared cluster entanglement. Int. J. Theor. Phys. 48, 2644–2651 (2009)CrossRef MATH
21.Zheng, S.B.: Splitting quantum information via W states. Phys. Rev. A 74(5), 054303 (2006)ADS CrossRef
22.Karlsson, A., Koashi, M., Imoto, N.: Quantum entanglement for secret sharing and secret splitting. Phys. Rev. A 59(1), 162–168 (1999)ADS CrossRef
23.Cheung, C.Y., Zhang, Z.J.: Criterion for faithful teleportation with an arbitrary multiparticle channel. Phys. Rev. A 80, 022327 (2009)ADS CrossRef
24.Paul, N., Menon, J.V., Karumanchi, S., et al.: Quantum tasks using six-qubit cluster states. Quantum Inf. Process. 10, 619–632 (2011)MathSciNet CrossRef MATH
25.Muralidharan, S., Jain, S., Panigrahi, P.K.: Splitting of quantum information using N-qubit linear cluster states. Opt. Commun. 284(4), 1082–1085 (2011)ADS CrossRef
26.Andoni, A., Indyk, P.: Proceedings of 47th Annual IEEE Symposium on the Foundations of Computer Science (FOCS06), pp 249–260. IEEE Press, New York (2006)
27.Li, Y.H., Liu, J.C., Nie, Y.Y.: Quantum teleportation and quantum information splitting by using a genuinely entangled six-qubit state. Int. J. Theor. Phys. 49(10), 2592–2599 (2010)MathSciNet CrossRef MATH
28.Wiesner, S: Conjugate coding. SIGACT News 15, 78–88 (1983)CrossRef MATH
29.Muralidharan, S., Panigrahi, P.K.: Perfect teleportation, quantum-state sharing, and superdense coding through a genuinely entangled five-qubit state. Phys. Rev. A 77, 032321 (2008)ADS CrossRef
30.Zhao, Z., Chen, Y.A., Zhang, A.N., et al.: Experimental demonstration of five-photon entanglement and open-destination quantum teleportation. Nature 430, 54 (2004)ADS CrossRef
31.Deng, F.G., Li, X.H., Li, C.Y., et al.: Multiparty quantum-state sharing of an arbitrary two-particle state with Einstein-Podolsky-Rosen pairs. Phys. Rev. A 72, 044301 (2005)ADS CrossRef
32.Xiao-Feng, Y., Yi-Min, L., Wen, Z., et al.: Simplified four-qubit cluster state for splitting arbitrary single-qubit information. Commun. Theor. Phys. 53, 49–53 (2010)ADS CrossRef MATH
33.Nie, Y., Li, Y., Liu, J., et al.: Quantum state sharing of an arbitrary four-qubit GHZ-type state by using a four-qubit cluster state. Quantum Inf. Process. 10, 603–608 (2011)MathSciNet CrossRef MATH
34.Yang, C.P., Chu, S.I., Han, S.: Efficient many-party controlled teleportation of multiqubit quantum information via entanglement. Phys. Rev. A 70(2), 022329 (2004)ADS CrossRef
35.Choudhury, S., Muralidharan, S., Panigrahi, P.K.: Quantum teleportation and state sharing using a genuinely entangled six-qubit state. J. Phys. A 42(11), 115303 (2009)ADS MathSciNet CrossRef MATH
36.Man, Z.X., Xia, Y.J., An, N.B.: Genuinemultiqubit entanglement and controlled teleportation. Phys. Rev. A 75(5), 052306 (2007)ADS CrossRef
37.Muralidharan, S., Panigrahi, P.K.: Perfect teleportation, quantum-state sharing, and superdense coding through a genuinely entangled five-qubit state. Phys. Rev. A 77 (3), 032321 (2008)ADS CrossRef
38.Deng, F.G., Li, X.H., Li, C.Y., et al.: Multiparty quantum-state sharing of an arbitrary two-particle state with Einstein Podolsky Rosen pairs. Phys. Rev. A 72 (4), 044301 (2005)ADS CrossRef
39.Hou, K., Li, Y.B., Shi, S.H.: Quantum state sharing with a genuinely entangled five-qubit state and Bell-state measurements. Opt. Commun. 283(9), 1961–1965 (2010)ADS CrossRef
40.Muralidharan, S., Panigrahi, P.K.: Quantum information splitting using multipartite cluster states. Phys. Rev. A 78(6), 062333 (2008)ADS CrossRef
41.Wang, X.W., Peng, Z.H., Jia, C.X., et al.: Scheme for implementing controlled teleportation and dense coding with genuine penta qubit entangled state in cavity QED. Opt. Commun. 282(4), 670–673 (2009)ADS CrossRef
42.Li, D.F., Wang, R.J., Zhang, F.L., et al.: Quantum information splitting of arbitrary two-qubit state by using four-qubit cluster state and Bell-state[J]. Quantum Inf. Process. 1–14 (2015)
43.Li, D.F., Wang, R.J., Zhang, F.L.: Quantum information splitting of arbitrary three-qubit state by using four-qubit cluster state and GHZ-state. Int. J. Theor. Phys., published online, 1–12 (2014)
44.Li, D.F., Wang, R.J., Zhang, F.L.: Quantum information splitting of arbitrary three-qubit state by using seven-qubit entangled state. Int. J. Theor. Phys., published online, 1–8 (2014)
45.Wang, R.J., Zhang F.L.: Quantum Information Splitting of Two-qubit Bell State by Using Four-qubit Entangle State[J] - 作者单位:Dong-fen Li (1)
Rui-jin Wang (1)
Feng-li Zhang (1)
Zhi-guang Qin (1)
Edward Baagyere (1)
1. School of Software and Engineering, University of Electronic Science and Technology of China, Chengdu, 610054, China - 刊物类别:Physics and Astronomy
- 刊物主题:Physics
Physics
Quantum Physics
Elementary Particles and Quantum Field Theory
Mathematical and Computational Physics - 出版者:Springer Netherlands
- ISSN:1572-9575
文摘
In this paper, we demonstrate how a five-qubit entangled state can be used to realize the deterministic Quantum State Sharing (QSTS) of a single and two-qubit state among three parties by performing von-Neumann measurement and bell-state measurements. In our scheme, any of the two agents has the ability to reconstruct the original state if he/she collaborates with the other agent,otherwise an individual agent does not have enough information to reconstruct the original state. The paper also outlines the various measurements and mathematical framework of the scheme. The security analysis of our scheme against two attacks scenarios prove that the scheme is secure against an eavesdropper attack and a malicious attacks.