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Weak value and measurement in precision sensing

Junfan Zhu, Ling Ye, Yifan Wang, Yurong Liu, Yinghang Jiang, An Wang, Jiguo Wu, Zhiyou Zhang

2025Applied Physics Reviews10 citationsDOI

Abstract

Weak measurement refers to a type of quantum measurement that disturbs the system very little. In the framework of weak measurement, Aharonov, Albert, and Vaidman introduced the concept of postselection and thereby defined the weak value. In recent research, weak-value measurement (WVM) has offered a novel perspective for studying intricate problems in quantum mechanics, leading to many conceptual breakthroughs. More importantly in practice, WVM has shown an unprecedented impact on precision sensing. In this review, we begin by presenting the fundamental theory of WVM based on quantum parameter estimation, from which the effects of weak-value amplification and weak-coupling amplification can be derived. The two effects can significantly improve the precision in various sensing schemes based on WVM. We point out the technical advantages that enable the WVM schemes to outperform the conventional ones under the same measurement conditions. Notably, the capability of information compression is underscored, which is garnering increasing attention in the field of quantum metrology. This review aims to show the possibility for broadening the application of WVM to address more critical problems, and on the other hand, for leveraging its advantages to accomplish tasks that are currently unattainable, such that WVM could play a more important role in the future of precision sensing.

Topics & Concepts

Value (mathematics)Computer scienceRemote sensingGeologyMachine learningQuantum Mechanics and ApplicationsQuantum Information and CryptographyMechanical and Optical Resonators
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