Statistical Methods for Quantum State Verification and Fidelity Estimation

Xiao Dong Yu; Jiangwei Shang; Otfried Gühne

doi:10.1002/qute.202100126

Statistical Methods for Quantum State Verification and Fidelity Estimation

Xiao Dong Yu^*, Jiangwei Shang^*, Otfried Gühne^*

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Review article › peer-review

22 Citations (Scopus)

Abstract

The efficient and reliable certification of quantum states is essential for various quantum information processing tasks as well as for the general progress on the implementation of quantum technologies. In the last few years several methods have been introduced which use advanced statistical methods to certify quantum states in a resource-efficient manner. In this article, a review of the recent progress in this field is presented. How the verification and fidelity estimation of a quantum state can be discussed in the language of hypothesis testing is explained first. Then, various strategies for the verification of entangled states with local measurements or measurements assisted by local operations and classical communication are explained in detail. Finally, several extensions of the problem, such as the certification of quantum channels and the verification of entanglement are discussed.

Original language	English
Article number	2100126
Journal	Advanced Quantum Technologies
Volume	5
Issue number	5
DOIs	https://doi.org/10.1002/qute.202100126
Publication status	Published - May 2022

Keywords

fidelity estimation
hypothesis testing
quantum certification and benchmarking
quantum state verification

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10.1002/qute.202100126

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title = "Statistical Methods for Quantum State Verification and Fidelity Estimation",

abstract = "The efficient and reliable certification of quantum states is essential for various quantum information processing tasks as well as for the general progress on the implementation of quantum technologies. In the last few years several methods have been introduced which use advanced statistical methods to certify quantum states in a resource-efficient manner. In this article, a review of the recent progress in this field is presented. How the verification and fidelity estimation of a quantum state can be discussed in the language of hypothesis testing is explained first. Then, various strategies for the verification of entangled states with local measurements or measurements assisted by local operations and classical communication are explained in detail. Finally, several extensions of the problem, such as the certification of quantum channels and the verification of entanglement are discussed.",

keywords = "fidelity estimation, hypothesis testing, quantum certification and benchmarking, quantum state verification",

author = "Yu, {Xiao Dong} and Jiangwei Shang and Otfried G{\"u}hne",

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AU - Shang, Jiangwei

AU - Gühne, Otfried

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N2 - The efficient and reliable certification of quantum states is essential for various quantum information processing tasks as well as for the general progress on the implementation of quantum technologies. In the last few years several methods have been introduced which use advanced statistical methods to certify quantum states in a resource-efficient manner. In this article, a review of the recent progress in this field is presented. How the verification and fidelity estimation of a quantum state can be discussed in the language of hypothesis testing is explained first. Then, various strategies for the verification of entangled states with local measurements or measurements assisted by local operations and classical communication are explained in detail. Finally, several extensions of the problem, such as the certification of quantum channels and the verification of entanglement are discussed.

AB - The efficient and reliable certification of quantum states is essential for various quantum information processing tasks as well as for the general progress on the implementation of quantum technologies. In the last few years several methods have been introduced which use advanced statistical methods to certify quantum states in a resource-efficient manner. In this article, a review of the recent progress in this field is presented. How the verification and fidelity estimation of a quantum state can be discussed in the language of hypothesis testing is explained first. Then, various strategies for the verification of entangled states with local measurements or measurements assisted by local operations and classical communication are explained in detail. Finally, several extensions of the problem, such as the certification of quantum channels and the verification of entanglement are discussed.

KW - fidelity estimation

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Statistical Methods for Quantum State Verification and Fidelity Estimation

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Keywords

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