本文描述了作者首次依据空间频谱的分布特征,提出了在共焦激光扫描显微系统中实现暗场成像的新途径——离轴成像法。
Based on the spatial spectral distribution, a new method to form images with dark-field ib proposed for applications in Confocal scanning Laser microscopy system.
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.
用光学信息论本征理论讨论共焦激光扫描显微镜光学系统的成像关系,获得在理想成像及有像差时系统的光学信息量的表达式。
By using the eigen-theory method of optical information theory, the imaging relationship of the optical system of a confocal laser scanning microscope is discussed.
从激光共焦扫描显微镜的基本原理出发,深入讨论激光共焦扫描显微镜的深度分辨率和横向分辨率,同时研究三维成像的像差补偿问题。
The depth discrimination and transverse resolution of a laser confocal scanning microscope are discussed from the imaging principle of laser confocal scanning microscope.
在激光扫描共焦显微三维成像、CT成像、MRI成像,以及在图象处理和识别中,三维物体的显示是必不可少的。
In laser scanning confocal microscopy imaging, ct imaging, MRI imaging, and in 3d image processing and recognition, visualization of 3d objects is essential.
在激光扫描共焦显微三维成像、CT成像、MRI成像,以及在图象处理和识别中,三维物体的显示是必不可少的。
In laser scanning confocal microscopy imaging, ct imaging, MRI imaging, and in 3d image processing and recognition, visualization of 3d objects is essential.
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