Measurement of microfluidic channel by using multiple-scans overlap mode of optical coherence tomography

机译：通过使用多扫描的光学相干断层扫描模式测量微流体通道

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摘要

A method for measuring the channel size of microfluidic chip by using optical coherence tomography (OCT) is investigated. Based on spectral-domain OCT imaging and image processing, an OCT system for measurement of the microfluidic channel size is developed, which is suitable for planar two-dimensional measurement. The cross-sectional images of the micro-channel of a microfluidic chip are obtained by using OCT continuous B-scan technology. With image processing for the acquired image in noise elimination and dispersion compensation, the size of the micro-channels in depth is achieved. Comparing with the single-scan OCT imaging mode, back-passing multiple-scans mode has the capability of high image quality to achieve high measurement precision of micro-channel size.

机译：研究了通过使用光学相干断层扫描（OCT）来测量微流体芯片的通道尺寸的方法。基于光谱域OCT成像和图像处理，开发了用于测量微流体通道尺寸的OCT系统，适用于平面二维测量。通过使用OCT连续B扫描技术获得微流体芯片的微通道的横截面图像。利用用于噪声消除和色散补偿中获取图像的图像处理，实现了微通道的大小。与单扫描OCT成像模式相比，回通路多扫描模式具有高图像质量的能力，以实现微通道尺寸的高测量精度。

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《SPIE Conference on Advanced Optical Imaging Technologies》|2018年|1 v. (various pagings)|共8页
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作者
Fenglin Han; Zhuqing Jiang; Yanyan Jia; Yiwei Liu;
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中图分类 N-532;
关键词
optical coherence tomography; tomographic imaging; microfluidic chip; depth measurement; dispersion compensation;

机译：光学相干断层扫描;断层摄影成像;微流体芯片;深度测量;分散补偿;

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Measurement of microfluidic channel by using multiple-scans overlap mode of optical coherence tomography

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