Precision metrology with weak measurements using spin splitting of light

2016 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2016-07-01 DOI:10.1109/3M-NANO.2016.7824979

Xiaodong Qiu, Linguo Xie, Jinglei Du, Zhiyou Zhang

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Abstract

Since its first introduction over twenty years ago, weak measurements have gradually became an useful metrology tool in the laboratory. Due to its desirable amplification effect, a small physical variable can be detected with weak measurements. Spin splitting of light, which stems from the interaction between the spin and orbital angular momentum in optical reflection or refraction at the interface of mediums, is always a weak effect. However, the spin splitting of light can be detected easily with weak measurements. Remarkably, the spin splitting of light is sensitive to the physical parameter variations of system. Using the spin splitting as a probe, the physical parameter can be accurately estimated with weak measurements. Here, we review some of our works on precision metrology with weak measurements using the spin splitting of light as a probe, such as estimation of the magneto-optical constant of a magnetic film, determination of the focused beam waist, and measurement of the polarization state of light.

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利用光的自旋分裂进行微弱测量的精密计量学

自二十多年前首次引入以来，弱测量已逐渐成为实验室中有用的计量工具。由于其理想的放大效应，一个小的物理变量可以用微弱的测量检测到。光的自旋分裂是光在介质界面反射或折射过程中自旋角动量与轨道角动量相互作用的结果，是一种弱效应。然而，光的自旋分裂可以用微弱的测量很容易地检测到。值得注意的是，光的自旋分裂对系统物理参数的变化非常敏感。利用自旋分裂作为探针，可以通过弱测量准确地估计物理参数。本文综述了利用光自旋分裂为探针的微弱测量方法在精密测量方面的一些研究成果，如磁膜磁光常数的估计、聚焦束腰的确定以及光偏振态的测量等。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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