单色激发光源是单细胞荧光显微系统中的重要组成部分。
Monochromator is a very important part in living cell fluorescence microscopy system.
单色激发光源是单细胞荧光显微系统中的重要组成部分。
Monochromator is very important part in living cell fluorescence microscopy system.
目的:对三套荧光显微成像系统在国产新型光敏剂HMME亚细胞定位研究中的应用特点及适用范围进行了比较与评价。
Objective: to compare three sets of fluorescence microscopy imaging systems with each other applied in study of subcellular localization of domestic new photosensitizer HMME.
本系统不仅弥补了传统荧光显微镜的功能缺陷,而且实现了系统的计算机控制及荧光图像的处理、光谱分析等功能。
This system not only remedied the function defects of the traditional fluorescence microscope, but also realized the computer control and the process and spectral analysis of the fluorescence image.
采用电脑多媒体技术配合荧光显微镜,建立了病理组织分析及活细胞荧光示踪系统。
Using the computer multimedia technology and fluorescence microscope, we established the pathology organization analysis and the living cell fluorescence trace system.
描述了工作台的工作原理,并对其静态和动态性能进行了测试,实验表明这一扫描系统能很好的应用于共聚焦激光扫描荧光显微镜系统。
This paper describes the principle of the stage, and the testing of the static and dynamic properties. The whole system has been testified to work well for confocal laser scanning microscopy.
方法采用共聚焦显微自体荧光图像系统采集与分析15例大肠正常组织和癌组织的显微自体荧光图像。
Methods a confocal microscopic autofluorescence imaging system was used to detect the laser induced autofluorescence imaging of normal and cancerous colorectal tissues from 15 patients.
共焦扫描光学显微(CSOM)系统有透射式和反射式、相干光和非相干光荧光等类型。
Confocal scanning optical microscopy (CSOM) includes transmission type and reflection type as well as coherent incident light type and incoherent fluorescent light type.
该系统提供提高了的分辨率和对比度,并还适于匹配荧光显微技术。
The system provides improved resolution and contrast, and is well suited for adaptation to fluorescence microscopy techniques.
本文根据棉花的荧光特性,设计了一种适合采集和处理棉花纤维显微荧光图像的图像采集系统。
This system is made up of the camera(CCD), the image gathering processing module and the vehicles recognition.
实验建立了荧光显微成像系统对光学元件损伤引起的荧光光斑畸变进行观测。
A fluorescence image system was built to observe aberration of fluorescence profile because of laser induced damage.
实验建立了荧光显微成像系统对光学元件损伤引起的荧光光斑畸变进行观测。
A fluorescence image system was built to observe aberration of fluorescence profile because of laser induced damage.
应用推荐