高分辨率和高灵敏度的双折射及二向色性偏振光成像。

Polarized light imaging of birefringence and diattenuation at high resolution and high sensitivity.

作者信息

Mehta Shalin B, Shribak Michael, Oldenbourg Rudolf

机构信息

Marine Biological Laboratory, Woods Hole MA 02543.

出版信息

J Opt. 2013 Sep 1;15(9). doi: 10.1088/2040-8978/15/9/094007.

DOI:10.1088/2040-8978/15/9/094007

PMID:24273640

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3834771/

Abstract

Polarized light microscopy provides unique opportunities for analyzing the molecular order in man-made and natural materials, including biological structures inside living cells, tissues, and whole organisms. 20 years ago, the LC-PolScope was introduced as a modern version of the traditional polarizing microscope enhanced by liquid crystal devices for the control of polarization, and by electronic imaging and digital image processing for fast and comprehensive image acquisition and analysis. The LCPolScope is commonly used for birefringence imaging, analyzing the spatial and temporal variations of the differential phase delay in ordered and transparent materials. Here we describe an alternative use of the LC-PolScope for imaging the polarization dependent transmittance of dichroic materials. We explain the minor changes needed to convert the instrument between the two imaging modes, discuss the relationship between the quantities measured with either instrument, and touch on the physical connection between refractive index, birefringence, transmittance, diattenuation, and dichroism.

摘要

偏振光显微镜为分析人造材料和天然材料中的分子有序性提供了独特的机会，这些材料包括活细胞、组织和整个生物体内部的生物结构。20年前，LC-PolScope作为传统偏光显微镜的现代版本被引入，它通过用于控制偏振的液晶装置以及用于快速全面图像采集和分析的电子成像和数字图像处理得到了增强。LCPolScope通常用于双折射成像，分析有序透明材料中差分相位延迟的空间和时间变化。在这里，我们描述了LC-PolScope用于成像二向色性材料的偏振依赖透过率的另一种用途。我们解释了在两种成像模式之间转换仪器所需的微小变化，讨论了用这两种仪器测量的量之间的关系，并涉及折射率、双折射、透过率、二向色衰减和二向色性之间的物理联系。

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