最后,将该图像进行计算机降噪去斑处理,得到一张50纳米分辨率的图片。
Finally, the image is cleaned up by a computer program and the 50-nanometre-resolution picture emerges.
先进的图像处理技术能让您在视场内任意部位变焦以隔离和测量细微至50纳米分辨率的细节—无需移动测量工件。
Advanced image processing techniques enables you to zoom at any position within the field to isolation and measure the 50 nanometer resolution details-without moving measurement artifacts.
90纳米的分辨率使得科学家可以观察神经传递素内的元素分布。
The resolution of 90 nanometres allowed scientists to visualize the elements distribution in the neurotransmitter vesicles.
这样便将图象分辨率提高到了0.5微米或500纳米。
That brings the resolution to half a micron, or 500 nanometres.
努尔博士表示,这项新技术能为岩石样本结构创建分辨率为50纳米的三维立体照片。
According to Dr Nur, the new technology is capable of creating three-dimensional pictures of a sample's structure with a resolution of 50 nanometres.
原子力显微镜是运用一种微小的探针去“感受”样本表面,能得到高分辨率的影像(约5纳米的分辨率)。
Atomic force microscopy generates very high-resolution images (about 5-nanometer resolution) by “feeling” the surface of a sample with a tiny probe tip.
精确度超过0.1%,或者说在纳米尺度下的空间分辨率在0.5皮米。
Precision exceeds 0.1%, or 0.5 picometers (2) and spatial resolution is on the nanometer scale.
他的图表早就表明了纳米技术,易用性基因测序,脑扫描分辨率方面的飞速发展。
His graphs already show the beginning of exponential progress in nanotechnology, in the ease of gene sequencing, in the resolution of brain scans.
纳米压印技术通过压印实现了纳米结构的图形转移,具有分辨率高、效率高、成本低的优点。
By pressing, nano-imprinting lithography technology to complete the pattern transfer of nano-structure is characterized by high resolution, high efficiency and low cost.
向平移台和Y向平移台的移动量可由线性编码器测得,分辨率为纳米级。
Displacements of the X - and Y-stages are measured by linear encoders with nanometer resolution.
实验表明,这种微悬臂使系统可以达到纳米量级的分辨率。
It is demonstrated that the cantilever make the system have nanometer level resolution.
这一工作表明,用测量局域功函数的方法容易区分表面上不同的元素,并具有纳米尺度的空间分辨率。
It is demonstrated that the local work function measurement by STM is a powerful way to identify different elements with nanometer resolution.
又由于油膜具有均化作用,可以提高进给精度,在较长的行程上可以达到纳米级的定位分辨率。
Also because the lubricant film has the homogenization, may increase to feed precision, may achieve a nanometer level in the long traveling schedule the localization resolution.
研究结果表明,此技术可实现分辨率高达几个纳米大小的超微细图形制作,制作效率极高。
The results show that the technology can realize super finest patterns of several nanometers and the fabricating efficiency is very high.
微分干涉相衬显微镜具有纳米级的相位分辨率,可以看到一般光学显微镜难以观察到的微细结构。
Being of the phase resolution power of nm level, the DIC microscopy can discern the microcosmic structure which cannot be observed by the ordinary microscopy.
本文主要研究利用低线数计量光栅实现具有大量程、纳米级分辨率的位移测量理论及其关键技术。
In this dissertation. The theory and key technologies to measure long-range displacement with nanometer resolution by metrology grating is studied.
纳米级分辨率的运动是当今超精密机床精度指标的特征标志。
Motion resolution in nanometer scale is the important characteristic indicator of ultra-precision machine tool.
例如,人们通过这种方式,能够获取高分辨率的生物分子图像,这使得人们对纳米尺度的微观世界有了全新的认识。
In this way, biomolecules, for example, can be imaged at extremely highresolution, providing new insight into the nano cosmos of nature.
DPN作为一种在物质表面构造纳米结构的技术,以其高分辨率、定位准确和直接书写等优点,在物理、化学、生物等领域的纳米尺度研究中得到了广泛应用。
AS a pattenning technology, DPN is now widely used in the nanoscale research in physics, chemistry, biology and so on because of its high resolution, registration and direct-write ability.
实验结果表明,检测灵敏度大大提高,扫描力显微(SFM)像的分辨率可达纳米量级。
It is demonstrated that the detection sensitivity can be greatly improved, and the resolution of SFM (scanning force microscopy) image can reach nanometer order of magnitude.
纳米压印作为非光学的下一代光刻技术,具有分辨率高、成本低、产率高等诸多优点,因而可能应用于将来的半导体制造中。
Nanoimprint, as a non-optical lithography technology , has demonstrated its ability for semiconductor manufacturing by offering resolution below sub-10nm feature size, high throughput and low cost.
碳基底上的纳米级金颗粒标样,该标样可进行扫描电镜的分辨率和成像质量的检测和校正。
These gold on carbon (Au/C) calibration standard samples have been specifically produced to enable high resolution capabilities of all kinds of high-end field emission scanning electron microscopes.
该机构用步进电机驱动,柔性铰链和弹性平板作为传动导向机构,可以实现纳米级的运动分辨率。
The driving component is a step motor, the submicro-meter accuracy is obtained from the adoption of the flexible hinge and elastic element as a guide rail.
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.
纳米压印技术是一种高分辨率、廉价、高效的纳米结构制备技术。
Nanoimprint is a high resolution, high throughput, low cost lithographic method.
紫外-可见光谱、微区能谱扫描、高分辨率透射电镜分析、元素分析、热重-差示扫描量热等分析证实了C_(60)对金属纳米团簇表面的修饰;
UV-Vis, Energy dispersive spectroscopy, Element analysis, TG-DSC or TG-DTA indentify that surface of metal nanoclusters was decorated by C_(60);
紫外-可见光谱、微区能谱扫描、高分辨率透射电镜分析、元素分析、热重-差示扫描量热等分析证实了C_(60)对金属纳米团簇表面的修饰;
UV-Vis, Energy dispersive spectroscopy, Element analysis, TG-DSC or TG-DTA indentify that surface of metal nanoclusters was decorated by C_(60);
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