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Many previous studies about teleportation are based on pure state. Study of quantum channel as mixed state is more realistic but complicated as pure states degenerate into mixed states by interaction with environment, and the Werner state plays an important role in the study of the mixed state. In this paper, the quantum wireless multihop network is proposed and the information is transmitted hop by hop through teleportation. We deduce a specific expression of the recovered state not only after one-hop teleportation but also across multiple intermediate nodes based on Werner state in a quantum wireless multihop network. We also obtain the fidelity of multihop teleportation.

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Partially entangled states bridge in quantum teleportation

Cai

Shi

et al. 2014

Front. Phys.

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Quantum channel establishing rate model of quantum communication network based on entangled states

Chen¹,

Cai²,

Cai³

et al. 2015

Acta Phys. Sin.

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Targeting the quantum communication network based on entangled states, a network model is proposed. According to the model, the quantum channel establishing rate of basic links is then analyzed. For different quantum channel establishment methods, the quantum channel establishing rates of long relay links are also analyzed. Then the quantum channel establishing rates corresponding to the point-by-point method and segmentation method are calculated. Finally, the quantum channel establishing rate between two arbitrary points in a large-scale quantum entanglement communication network is analyzed based on the percolation model. The quantum channel establishing rate in a quantum communication network of n nodes is Ω (1/n).

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Li-Hui Shi

Quantum information transmission in the quantum wireless multihop network based on Werner state

Partially entangled states bridge in quantum teleportation

Quantum channel establishing rate model of quantum communication network based on entangled states

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