原子力显微镜(afm)是在扫描隧道显微镜(STM)基础上发明的又一种纳米级高分辨率显微技术,目前已在高分子领域获得了广泛的应用。
Atomic force microscope (AFM) was invented as another nanoscale microscopy with high resolution based on scanning tunneling microscope (STM) and has extensive application in polymer field.
磁共振力显微镜的分辨率接近于电子显微镜(10倍以内),这是目前生物学家所用到的最灵敏的成像技术。
MRFM resolution is nearly as good (within a factor of 10) of the resolution of electron microscopy, the most sensitive imaging technique that biologists use today.
一项新的超分辨率显微镜技术为研究人员展示了他们前所未见的细胞膜的细节。
A new super-resolution microscopy technique is providing researchers with never-before-seen detail of a cell membrane.
可以使用氦离子显微镜进行离子散射能谱分析,从而将这项灵敏度最高的表面技术应用于同时要求具有空间分辨率的分析任务中。
Ion scattering spectroscopy can be carried out with HIM, allowing this most surface sensitive technique to be applied to analysis tasks where spatial resolution is also required.
高分辩率荧光显微镜是我们这一年的年度技术。由于它的巨大潜力,使得人们可以更真实地理解细胞生物学。
With its tremendous potential for understanding cellular biology now poised to become a reality, super-resolution fluorescence microscopy is our choice for Method of the Year.
病理学家采用立体技术检测癌症检出采用传统的显微镜三分之一的错误率。
Pathologists using 3-d technology detected cancer with one-third the error rate compared to those using the traditional microscope.
显微外科技术还有助于远端颈内动脉显露和降低颅神经损伤发生率。
Microsurgical technique is useful for decreasing such complications and the rate of cranial nerve injury, and promoting the exposure of distal internal carotid artery.
利用纤芯和包层中的折射率分布实现光传输控制等先进技术被认为是第三代显微学中的激光技术。
The third generation techniques such as light propagation control achieved by refractive index distribution in core and clad are promising.
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.
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.
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.
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.
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