基于傅里叶叠层显微术的定量相位成像。
Quantitative phase imaging via Fourier ptychographic microscopy.
出版信息
Opt Lett. 2013 Nov 15;38(22):4845-8. doi: 10.1364/OL.38.004845.
Abstract
Fourier ptychographic microscopy (FPM) is a recently developed imaging modality that uses angularly varying illumination to extend a system's performance beyond the limit defined by its optical components. The FPM technique applies a novel phase-retrieval procedure to achieve resolution enhancement and complex image recovery. In this Letter, we compare FPM data to theoretical prediction and phase-shifting digital holography measurement to show that its acquired phase maps are quantitative and artifact-free. We additionally explore the relationship between the achievable spatial and optical thickness resolution offered by a reconstructed FPM phase image. We conclude by demonstrating enhanced visualization and the collection of otherwise unobservable sample information using FPM's quantitative phase.
摘要
傅里叶叠层显微镜(FPM)是一种最近发展起来的成像模式,它使用角度变化的照明来扩展系统的性能,使其超越其光学组件定义的极限。FPM 技术应用了一种新的相位恢复程序,以实现分辨率增强和复杂图像恢复。在这封信中,我们将 FPM 数据与理论预测和相移数字全息测量进行比较,以表明其获得的相位图是定量的且无伪影的。我们还探讨了重建的 FPM 相位图像提供的可实现的空间和光学厚度分辨率之间的关系。最后,我们通过使用 FPM 的定量相位来增强可视化和收集其他不可观察的样本信息来证明这一点。
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