偏振器
数据采集
光学
空间光调制器
计算机科学
显微镜
显微镜
材料科学
帧速率
计算机视觉
计算机硬件
计算机图形学(图像)
人工智能
物理
操作系统
双折射
作者
Hui-Wen Lu-Walther,Martin Kielhorn,Ronny Förster,A Jost,Kai Wicker,Rainer Heintzmann
标识
DOI:10.1088/2050-6120/3/1/014001
摘要
A significant improvement in acquisition speed of structured illumination microscopy (SIM) opens a new field of applications to this already well-established super-resolution method towards 3D scanning real-time imaging of living cells. We demonstrate a method of increased acquisition speed on a two-beam SIM fluorescence microscope with a lateral resolution of ~100 nm at a maximum raw data acquisition rate of 162 frames per second (fps) with a region of interest of 16.5 × 16.5 µm2, free of mechanically moving components. We use a programmable spatial light modulator (ferroelectric LCOS) which promises precise and rapid control of the excitation pattern in the sample plane. A passive Fourier filter and a segmented azimuthally patterned polarizer are used to perform structured illumination with maximum contrast. Furthermore, the free running mode in a modern sCMOS camera helps to achieve faster data acquisition.
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