Efficient quantum state estimation with low-rank matrix completion

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openAccess

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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Date

2024-08-05

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en

Pages

12

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EPJ Quantum Technology, Volume 11

Abstract

This paper introduces a novel and efficient technique for quantum state estimation, coined as low-rank matrix-completion quantum state tomography for characterizing pure quantum states, as it requires only non-entangling bases and 2n + 1 local Pauli operators. This significantly reduces the complexity of the process and increases the accuracy of the state estimation, as it eliminates the need for the entangling bases, which are experimentally difficult to implement on quantum devices. The required minimal post-processing, improved accuracy and efficacy of this matrix-completion-based method make it an ideal benchmarking tool for investigating the properties of quantum systems, enabling researchers to verify the accuracy of quantum devices, characterize their performance, and explore the underlying physics of quantum phenomena. Our numerical results demonstrate that this method outperforms contemporary techniques in its ability to accurately reconstruct multi-qubit quantum states on real quantum devices, making it an invaluable contribution to the field of quantum state characterization and an essential step toward the reliable deployment of intermediate- and large-scale quantum devices.

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Keywords

Fidelity, Matrix completion, NISQ, Pauli operators, Quantum state tomography, Singular value decomposition

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Citation

Tariq, S, Farooq, A, Ur Rehman, J, Q. Duong, T & Shin, H 2024, ' Efficient quantum state estimation with low-rank matrix completion ', EPJ Quantum Technology, vol. 11, no. 1, 50 . https://doi.org/10.1140/epjqt/s40507-024-00261-x