相衬显微术
相位成像
微分干涉显微术
显微镜
相(物质)
相位对比成像
材料科学
各向同性
差速器(机械装置)
对比度(视觉)
生物医学工程
化学
光学
医学
物理
热力学
有机化学
作者
Hsi‐Hsun Chen,Yu‐Zi Lin,Yuan Luo
标识
DOI:10.1002/jbio.201700364
摘要
Quantitative phase imaging (QPI) has been investigated to retrieve optical phase information of an object and applied to biological microscopy and related medical studies. In recent examples, differential phase contrast (DPC) microscopy can recover phase image of thin sample under multi‐axis intensity measurements in wide‐field scheme. Unlike conventional DPC, based on theoretical approach under partially coherent condition, we propose a new method to achieve isotropic differential phase contrast (iDPC) with high accuracy and stability for phase recovery in simple and high‐speed fashion. The iDPC is simply implemented with a partially coherent microscopy and a programmable thin‐film transistor (TFT) shield to digitally modulate structured illumination patterns for QPI. In this article, simulation results show consistency of our theoretical approach for iDPC under partial coherence. In addition, we further demonstrate experiments of quantitative phase images of a standard micro‐lens array, as well as label‐free live human cell samples.
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