在这套装置中,离子透镜的设计是利用Simion7。
由三个或五个透镜元素组成的周期场,可以作为离子透镜使离子束成象。
A periodic field formed with three or five lens elements can be used as an image-forming lens in ion-optics.
它由液态金属离子源,源尖微调装置,离子透镜及静电八极偏转器等组成。
The gun is composed of the liquid metal ion source of Ga, the tip microadjusters' assembly, the ion lens, and the electrostatic octopole deflector.
最后,简单地讨论了离子气体激光器和某些其它激光器中的可能热透镜效应。
Finally, possible thermal lensing effects in ion gas lasers and other lasers are briefly discussed.
通过反应离子刻蚀可以将光刻胶微透镜图形转移至这种高性能的聚合物材料上。
Pattern transfer technique is used to transfer photoresist microlens arrays into the polymer underlayer.
研制了一种基于微透镜阵列的光寻址电位阵列传感器,用以实现同一溶液中多种重金属离子的同时检测。
A light addressable potentiometric array sensor was designed to realize the simultaneous detection of multi-heavy metal ions in the same solution.
建立了一台简单实用的单级透镜聚焦离子束(FIB)系统。
A simple and practical single-lens focused ion beam (FIB) System has been built.
使用薄膜沉积法和离子束刻蚀法制作16阶菲涅耳透镜,应用于折衍混合CCD相机。
The 16-step Fresnel lens had been fabricated by thin film deposition and ion beam etching and it has been used in refractive-diffractive CCD camera.
应用高功率微波大气传输机理和等离子体物理理论,提出了一种新概念天线等离子体有源透镜天线。
Applying the mechanics of the propagation of high power microwave in atmosphere and the theory of plasma physics, a sort of new conception antenna-active lens antenna based on plasma is put forward.
介绍了采用光刻离子交换工艺制作平面交叉型微透镜阵列的方法。
In the paper, ion-exchange technique fabrication method of planar intersect microlens arrays is given.
当波长趋于零时,折射系数都趋于1,这是由于脉冲激光的频率增高,等离子体中产生了非常强的“透镜”效应所至。
When the wavelength tends to zero, the refraction coefficient will tends to 1. Because with the frequency of pulse laser is going up, the very strong "Lens" effect will be produced in plasma.
当波长趋于零时,折射系数都趋于1,这是由于脉冲激光的频率增高,等离子体中产生了非常强的“透镜”效应所至。
When the wavelength tends to zero, the refraction coefficient will tends to 1. Because with the frequency of pulse laser is going up, the very strong "Lens" effect will be produced in plasma.
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