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Wireless Multihop Quantum Teleportation Utilizing a 4-Qubit Cluster State

Quantum Physics 2024-09-13 v7 Information Theory math.IT

Abstract

This paper proposes a quantum routing protocol using multihop teleportation for wireless mesh backbone networks. After analyzing the quantum multihop protocol, a four-qubit cluster state is selected as the quantum channel for the protocol. The quantum channel between intermediate nodes is established through entanglement swapping, utilizing the four-qubit cluster state. Additionally, both classical and quantum routes are created in a distributed manner. We demonstrate that quantum information can be teleported hop-by-hop from the source node to the destination node. Successful quantum teleportation occurs when the sender performs Bell state measurements (BSM), while the receiver introduces auxiliary particles, applies a positive operator-valued measure (POVM), and uses a corresponding unitary transformation to recover the transmitted state. We analyze the success probability of quantum state transfer and find that the optimal success probability is achieved when τ21=12\tau_{2|1} = \frac{1}{\sqrt{2}}. Our numerical results show the susceptibility of PsucP_{\text{suc}} to the number of hops NN. These findings indicate that multihop teleportation using distributed wireless quantum networks with a four-qubit cluster state is feasible.

Keywords

Cite

@article{arxiv.1708.00087,
  title  = {Wireless Multihop Quantum Teleportation Utilizing a 4-Qubit Cluster State},
  author = {S. J. Emem-Obong and Yame Mwanzang Philemon and C. Iyen and M. S. Liman and B. J. Falaye},
  journal= {arXiv preprint arXiv:1708.00087},
  year   = {2024}
}
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