光学
探测器
调制(音乐)
相位调制
相(物质)
波长
光流
计算机科学
物理
人工智能
图像(数学)
声学
相位噪声
量子力学
作者
Aihui Sun,Xiaoliang He,Zhilong Jiang,Yan Kong,Shouyu Wang,Cheng Liu
标识
DOI:10.1002/jbio.202300057
摘要
Label-free imaging and identification of fast-moving cells is a very challenging task. A kind of phase flow cytometry using coherent modulation imaging was proposed to realize label-free imaging and identification on fast-moving cells with compact optical alignment and high accuracy. Phase image of cells under inspection could be computed qualitatively from their diffraction patterns at the accuracy of about 0.01 wavelength and the resolution of about 1.23 μm and the view field of 0.126 mm2 . Since the imaging system was mainly composed by a piece of random phase plate a detector without using commonly adopted reference beam and corresponding complex optical alignment, this method has much compacter optical structure and much higher tolerance capability to environmental instability in comparison with other kinds of phase flow cytometry. Current experimental results prove it could be an efficient optical tool for label-free tumor cell detection.
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