Abstract
We propose a scheme of cyclic controlled joint remote state preparation by using a ten-qubit entangled state. In our scheme, Alice can remotely prepare an arbitrary single-qubit quantum state for Bob, and Bob can remotely prepare a desired single-qubit quantum state on Charlie’s side, and Charlie can also remotely prepare an arbitrary single-qubit quantum state for Alice. It is shown that only if the senders Alice, Bob, Charlie and the controller David collaborate with each other, the cyclic controlled joint remote state preparation can be realized successfully.
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Lo, H.K.: Classical-communication cost in distributed quantum-information processing: a generalization of quantum-communication complexity. Phys. Rev. A. 62, 012313 (2000)
Bennett, C.H., DiVincenzo, D.P.: Shor, et al.: Remote state preparation. Phys. Rev. Lett. 87, 077902 (2001)
Peters, N.A., Barreiro, J.T., Goggin, M.E., et al.: Remote state preparation: arbitrary remote control of photon polarization. Phys. Rev. Lett. 94, 150502 (2005)
Devetak, I., Berger, T.: Low-entanglement remote state preparation. Phys. Rev. Lett. 87, 197901 (2001)
Wei, J., Shi, L., Zhu, Y., et al.: Deterministic remote preparation of arbitrary multi-qubit equatorial states via two-qubit entangled states. Quantum Inf. Process. 17, 70 (2018)
Shukla, C., Thapliyal, K., Pathak, A.: Hierarchical joint remote state preparation in noisy environment. Quantum Inf. Process. 16, 205 (2017)
Zhao, H., Huang, L.: Effects of noise on joint remote state preparation of an arbitrary equatorial two-qubit state. Int. J. Theor. Phys. 56, 720 (2017)
Wang, M.M., Qu, Z.G., Wang, W., et al.: Effect of noise on deterministic joint remote preparation of an arbitrary two-qubit state. Quantum Inf. Process. 16, 140 (2017)
Choudhury, B.S., Dhara, A.: Joint remote state preparation for two-qubit equatorial states. Quantum Inf. Process. 14, 373 (2015)
Peng, J.Y., Bai, M.Q., Mo, Z.W.: Bidirectional controlled joint remote state preparation. Quantum Inf. Process. 14, 4263 (2015)
Wang, X., Mo, Z.: Bidirectional controlled joint remote state preparation via a seven-qubit entangled state. Int. J. Theor. Phys. 56, 1052 (2017)
Zhang, D., Zha, X.W., Duan, Y.J., et al.: Deterministic controlled bidirectional remote state preparation via a six-qubit entangled state. Quantum Inf. Process. 15, 2169 (2016)
Li, Y.H., Li, X.L., Nie, L.P., Sang, M.H.: Quantum teleportation of three and four-qubit state using multi-qubit cluster states. Int. J. Theor. Phys. 55, 1820 (2016)
Li, Y.H., Jin, X.M.: Bidirectional controlled teleportation by using nine-qubit entangled state in noisy environments. Quantum Inf. Process. 15, 929 (2016)
Li, Y.H., Li, X.L., Sang, M.H., et al.: Bidirectional controlled quantum teleportation and secure direct communication using five-qubit entangled state. Quantum Inf. Process. 12, 3835 (2013)
Li, Y.H., Xiang, T., Nie, Y.Y., et al.: Nonlinear interaction between broadband single-photon-level coherent states. Photon. Res. 5, 324 (2017)
Li, Y.H., Xiang, T., Nie, Y.Y., et al.: Spectral compression of single-photon-level laser pulse. Sci. Rep. 7, 43494 (2017)
Xiang, T., Sun, Q.C., Li, Y.H., et al.: Single-photon frequency conversion via cascaded quadratic nonlinear processes. Phys. Rev. A. 97, 063810 (2018)
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Sang, Zw. Cyclic Controlled Joint Remote State Preparation by Using a Ten-Qubit Entangled State. Int J Theor Phys 58, 255–260 (2019). https://doi.org/10.1007/s10773-018-3927-8
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DOI: https://doi.org/10.1007/s10773-018-3927-8