量子计量学
量子传感器
量子成像
弱测量
量子技术
物理
量子
光子
量子极限
开放量子系统
度量(数据仓库)
计量学
量子力学
量子态
表征(材料科学)
量子光学
量子相
测量装置
量子信息
测量问题
量子系统
量子信息科学
灵敏度(控制系统)
腔量子电动力学
纳米量子科学
计算机科学
量子网络
统计物理学
量子过程
量子动力学
量子测量
量子信道
分辨率(逻辑)
作者
Yichang Shou,Qiang Yang,Jiawei Liu,Shizhen Chen,Hailu Luo
标识
DOI:10.1002/qute.202501021
摘要
ABSTRACT Weak measurement has emerged as a pivotal technique in precision metrology, utilizing unique amplification effects to enhance the capabilities of quantum sensing and quantum imaging. Quantum sensing can provide systems with unprecedented accuracy and sensitivity by utilizing its quantum properties. Quantum imaging uses entangled photon states to capture information, enabling signal‐to‐noise ratio and resolution that surpass the limits of classical imaging. The synergistic integration of weak measurement with quantum sensing and imaging paves the way for next‐generation technologies with practical value, significantly advancing frontiers of precision metrology and imaging science. This review elucidates the fundamental theory of weak value amplification and comprehensively discusses the performance of weak measurement strategies in quantum sensing and imaging frameworks, highlighting both classical techniques and emerging quantum applications. It covers four main directions: nanostructure, 2D atomic crystal, biochemistry, and optical imaging, including from structural parameters characterization to chemical reaction sensing to nonlocal weak measurement microscopy. This work aims to discuss recent advances in weak measurement applications for quantum sensing and imaging platforms, while outlining future development opportunities arising from the convergence of these three fields.
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