该研究小组利用共焦光学显微镜观察纤维,利用动态光散射技术证实了纤维的组装过程,而且利用原子力显微镜技术(AFM)研究了它们的形态。
The research team observed the fibers using confocal light microscopy, confirmed their assembly using dynamic light scattering and studied their morphology using atomic force microscopy (AFM).
开发了一种基于激光共焦显微镜和图像处理技术的研究磨损表面及表面参数的新方法。
A new approach to gain surface parameters to characterize worn surfaces using confocal laser scanning microscopy and image processing technique was proposed.
利用激光共焦原理和扫描技术,实现激光共焦快速扫描显微成像。
The laser confocal fast scanning optical microscope image is realised by use of principle of laser confocal and scanning technology.
共焦扫描显微成像系统(C SO M)是以共焦原理为基础,集扫描技术和数字图像处理技术为一体的高精度的成像系统。
Confocal scanning optical microscopy (CSOM) is a high precision microscopical image system which based on the confocal principle, scanning technology and image processing.
叙述同一光路中双激光获得共焦的原理和特点及其实现技术,并就一实例的设计结果进行评价。
The principle and property of synchronous focusing of a twin-laser in same light path and its realization technique are described. The design result is evaluated by use of a practical example.
共焦扫描成像系统的数据传输可以采用串口通信技术实现。
The data transmission in confocal scanning imaging system can be realized through the serial port communication technique.
本发明是一种同轴共焦旋转抛物面镜聚光器,属于平行光汇聚的技术领域。
The invention relates to a concentrator of a coaxial confocal rotating paraboloidal mirror, belonging to the technical field of parallel light convergence.
显微共焦拉曼技术被用来研究电化学合成的聚苯胺(PANI)膜。
The doped polyaniline (PANI) films with different thickness electrodeposited on flat platinum electrode surface have been studied by confocal Raman spectroscopy.
研究结果表明,数字共焦显微技术具有很高的分辨率改善比,可以有效地恢复厚样本横向和轴向分辨率。
The results show that the digital confocal microscopy has high resolution improve ratio, and can restore lateral and axial resolution of thick specimen effectively.
数字共焦显微技术通过三维图像复原方法可以提高图像分辨率。
Digital confocal microscopy can improve the image resolution through a three-dimensional image restoration method.
共焦扫描显微术是利用点照明和点接收,并通过扫描以及计算机处理技术,以获得样品的三维图像的新技术。
Confocal scanning microscopy is a new technique which can obtain the 3-d images of samples by using scanning and computer processing.
如何快速准确检测微观轮廓形貌,已成为现代精密测试技术与仪器研究的重要课题,所研究的并行共焦探测方法是使微小轮廓的快速高精度检测成为可能。
How to measure the 3-D surface topography of the micro-specimens quickly and accurately has become a challenge in the field of modern micro-measurement.
如何快速准确检测微观轮廓形貌,已成为现代精密测试技术与仪器研究的重要课题,所研究的并行共焦探测方法是使微小轮廓的快速高精度检测成为可能。
How to measure the 3-D surface topography of the micro-specimens quickly and accurately has become a challenge in the field of modern micro-measurement.
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