Hierarchical Quantum Teleportation of Arbitrary Single-Qubit State by Using Four-Qubit Cluster State

How far is the distance between the two is obtained through mutually entangled particles. A far as long as the state of one particle changes, so as the state of the other particle instantaneously change. We present a scheme for hierarchical quantum teleportation via a four-qubit cluster state, where...

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Veröffentlicht in:	International journal of theoretical physics 2021-05, Vol.60 (5), p.1911-1919
Hauptverfasser:	Li, Dongfen, Zheng, Yundan, Liu, Xiaofang, Liu, Mingzhe
Format:	Artikel
Sprache:	eng
Schlagworte:	Clusters Elementary Particles Mathematical and Computational Physics Physics Physics and Astronomy Quantum electrodynamics Quantum Field Theory Quantum phenomena Quantum Physics Quantum teleportation Qubits (quantum computing) Theoretical
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container_end_page	1919
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container_start_page	1911
container_title	International journal of theoretical physics
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creator	Li, Dongfen Zheng, Yundan Liu, Xiaofang Liu, Mingzhe
description	How far is the distance between the two is obtained through mutually entangled particles. A far as long as the state of one particle changes, so as the state of the other particle instantaneously change. We present a scheme for hierarchical quantum teleportation via a four-qubit cluster state, where a sender distributes asymmetrically a quantum state to distant agents. This asymmetrically distribution leads to different agents to have different authority to reconstruct the secret quantum information. Furthermore, the hierarchical quantum teleportation of an arbitrary single-qubit state can be realized in cavity quantum electrodynamics (QED) systems.
doi_str_mv	10.1007/s10773-021-04810-3
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subjects	Clusters Elementary Particles Mathematical and Computational Physics Physics Physics and Astronomy Quantum electrodynamics Quantum Field Theory Quantum phenomena Quantum Physics Quantum teleportation Qubits (quantum computing) Theoretical
title	Hierarchical Quantum Teleportation of Arbitrary Single-Qubit State by Using Four-Qubit Cluster State
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