偏振解析斯托克斯-缪勒成像：技术与应用综述。

Polarization-resolved Stokes-Mueller imaging: a review of technology and applications.

机构信息

Department of Biophysics, School of Life Sciences, Manipal Academy of Higher Education, Manipal, Karnataka, 576104, India.

出版信息

Lasers Med Sci. 2019 Sep;34(7):1283-1293. doi: 10.1007/s10103-019-02752-1. Epub 2019 Mar 4.

DOI:10.1007/s10103-019-02752-1

PMID:30830559

Abstract

Polarization microscopy, a powerful optical tool to study anisotropic properties of biomolecules, provides better microstructural information of a sample as compared with conventional optical microscopic techniques. The measurement and analysis of polarization states of light can be performed using both Jones matrix as well as Stokes algebra. Further, the details of optical properties of specimen are characterized by Mueller matrix. However, the application of Jones calculus is limited to perfectly polarized light, but Stokes-Mueller polarimetry is emerging as a promising tool for tissue imaging due to its application irrespective of polarization state of the light. In this review article, we explain the development of Stokes-Mueller formalism in context of linear optics. Furthermore, application of Mueller matrix decomposition (MMD) method to derive sample properties is demonstrated in several bio-medical studies.

摘要

偏光显微镜是一种研究生物分子各向异性性质的强大光学工具，与传统的光学显微镜技术相比，它提供了更好的样品微观结构信息。可以使用琼斯矩阵和斯托克斯代数来进行光的偏振态的测量和分析。此外，还可以通过穆勒矩阵来描述样品的详细光学特性。然而，琼斯微积分的应用仅限于完全偏振光，但由于其对光的偏振状态不敏感，斯托克斯-穆勒偏振测量技术作为一种很有前途的组织成像工具正在兴起。在这篇综述文章中，我们解释了线性光学中斯托克斯-穆勒形式主义的发展。此外，还展示了穆勒矩阵分解（MMD）方法在一些生物医学研究中用于推导样品特性的应用。

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偏振解析斯托克斯-缪勒成像：技术与应用综述。

Polarization-resolved Stokes-Mueller imaging: a review of technology and applications.

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