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Experimental validation of phase using Nomarski microscopy with an extended Fried algorithm.
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Quantitative Carré differential interference contrast microscopy to assess phase and amplitude.定量卡雷微分干涉对比显微镜术用于评估相位和振幅。
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Complete polarization state generator with one variable retarder and its application for fast and sensitive measuring of two-dimensional birefringence distribution.具有一个可变延迟器的全偏振态发生器及其在二维双折射分布快速灵敏测量中的应用。
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Differential interference contrast microscope using photonic crystals for phase imaging and three-dimensional shape reconstruction.利用光子晶体进行相位成像和三维形状重建的微分干涉对比显微镜。
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Calibrating differential interference contrast microscopy with dual-focus fluorescence correlation spectroscopy.使用双焦点荧光相关光谱法校准微分干涉对比显微镜。
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Polarization-modulated differential-interference contrast microscopy with a variable retarder.带有可变延迟器的偏振调制微分干涉对比显微镜。
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Orientation-independent differential interference contrast microscopy and its combination with an orientation-independent polarization system.非定向差分干涉对比显微镜及其与非定向偏振系统的组合。
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具有快速切换剪切方向和偏置调制的定量非取向依赖微分干涉对比显微镜。

Quantitative orientation-independent differential interference contrast microscope with fast switching shear direction and bias modulation.

作者信息

Shribak Michael

机构信息

Marine Biological Laboratory, Woods Hole, Massachusetts 02543, USA.

出版信息

J Opt Soc Am A Opt Image Sci Vis. 2013 Apr 1;30(4):769-82. doi: 10.1364/JOSAA.30.000769.

DOI:10.1364/JOSAA.30.000769
PMID:23595339
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3695724/
Abstract

We describe a quantitative orientation-independent differential interference contrast (DIC) microscope, which allows bias retardation to be modulated and shear directions to be switched rapidly without any mechanical movement. The shear direction is switched by a regular liquid-crystal cell sandwiched between two standard DIC prisms. Another liquid-crystal cell modulates the bias. Techniques for measuring parameters of DIC prisms and calibrating the bias are shown. Two sets of raw DIC images with the orthogonal shear directions are captured within 1 s. Then the quantitative image of optical path gradient distribution within a thin optical section is computed. The gradient data are used to obtain a quantitative distribution of the optical path, which represents the refractive index gradient or height distribution. Computing enhanced regular DIC images with any desired shear direction is also possible.

摘要

我们描述了一种定量的、与取向无关的微分干涉对比(DIC)显微镜,它能够在无需任何机械移动的情况下调节偏置延迟并快速切换剪切方向。剪切方向通过夹在两个标准DIC棱镜之间的常规液晶盒进行切换。另一个液晶盒用于调节偏置。文中展示了测量DIC棱镜参数和校准偏置的技术。在1秒内捕获两组具有正交剪切方向的原始DIC图像。然后计算薄光学切片内光程梯度分布的定量图像。梯度数据用于获得光程的定量分布,该分布代表折射率梯度或高度分布。还可以计算具有任何所需剪切方向的增强型常规DIC图像。