Information Limits of Optical Microscopy: Application to Fluorescent Labelled Tissue Section

机译：光学显微镜的信息限制：在荧光标记组织切片中的应用

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The article demonstrates some less known principles of image build-up in diffractive microscopy and their usage in analysis unravelling the smallest localized information about the original object - an electromagnetic centroid. In fluorescence, the electromagnetic centroid is naturally at the position of the fluorophore. The usage of an information-entropic variable - a point divergence gain - is demonstrated for finding the most localized position of the object's representation, generally of the size of a voxel (3D pixel). These spatial pixels can be qualitatively classified and used for reconstruction of the 3D structures with precision comparable with electron microscopy.

机译：本文演示了衍射显微镜中图像积累的一些鲜为人知的原理，以及它们在分析中的用途，它们揭示了关于原始物体的最小局部信息（电磁质心）。在荧光中，电磁质心自然位于荧光团的位置。信息熵变量（点发散增益）的用法已证明可用于查找对象表示的最局部位置，通常具有体素（3D像素）的大小。可以对这些空间像素进行定性分类，并以与电子显微镜相当的精度将其用于3D结构的重建。

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《International work-conference on bioinformatics and biomedical engineering》|2017年|485-496|共12页
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Renata Rychtarikova; Georg Steiner; Michael B. Fischer; Dalibor Stys;
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Electromagnetic centroid; Point divergence gain; Superresolution; 3D structure reconstruction;

机译：电磁质心点发散增益;超分辨率; 3D结构重建;

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Information Limits of Optical Microscopy: Application to Fluorescent Labelled Tissue Section

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