Experimental realization of deterministic joint remote preparation of an arbitrary two-qubit pure state via GHZ states

Li, Nachuan; Xu, Lu; Liu, Jin-Ming

doi:10.1007/s11432-023-3873-6

Experimental realization of deterministic joint remote preparation of an arbitrary two-qubit pure state via GHZ states

Letter
Published: 19 February 2024

Volume 67, article number 139402, (2024)
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Nachuan Li¹,
Lu Xu² &
Jin-Ming Liu¹

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Summary

By employing two tripartite GHZ states as the entanglement channel, we realized the deterministic JRSP protocol of six unique initial two-qubit states on the Origin Wuyuan 6-qubit chip, with the measured average fidelities exceeding 0.4. Moreover, we employ the Origin NQVM to simulate the JRSP protocol in the presence of four noise environments. To enhance fidelity, we proposed substituting the two Hadamard gates in the GHZ state preparation circuit with parameterized unitary operations. Simulated results on NQVM indicate that this approach can be implemented in the actual JRSP experiment. Our work proves the experimental feasibility of JRSP of an arbitrary two-qubit state and could pave the way for developing and verifying more complex quantum communication tasks.

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Acknowledgements

This work was supported by National Natural Science Foundation of China (Grant Nos. 92265209, 91950112, 11174081). We are notably grateful to the Origin Quantum Cloud.

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Authors and Affiliations

State Key Laboratory of Precision Spectroscopy, School of Physics and Electronic Science, East China Normal University, Shanghai, 200241, China
Nachuan Li & Jin-Ming Liu
Hefei Origin Quantum Computing Technology Co., Ltd., Hefei, 230088, China
Lu Xu

Authors

Nachuan Li
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Lu Xu
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Jin-Ming Liu
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Corresponding author

Correspondence to Jin-Ming Liu.

Additional information

Supporting information Appendixes A–H. The supporting information is available online at info.scichina.com and link.springer.com. The supporting materials are published as submitted, without typesetting or editing. The responsibility for scientific accuracy and content remains entirely with the authors.

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