合并的高定义optics ? DO ?技术,透镜几何进来五互换性的透镜形状。
Incorporating HIGH DEFINITION OPTICS? (HDO?) technology, lens geometry comes in five interchangeable lens shapes.
所以研究人员使用统计分析来观测星系的位置和形状,从而找出由弱透镜效应造成的微小偏移。
So researchers used a statistical analysis to measure the orientation and shape of the galaxies to find small distortions due to so-called weak lensing.
空间电荷透镜的聚焦特性决定于其电子云的大小、形状和密度分布。
The focusing properties of a space-charge lens depend on the size, shape and density distribution of its electron cloud.
模拟结果显示,耦合效率的大小由光纤位置、芯片透镜尺寸和激光光源光斑形状共同决定。
The simulation results show that the optical coupling efficiency is determined by fiber position, the lens design of the photodiode chips, and the shape of the light source.
本文采用积分方程法计算带极靴的任意形状的磁透镜。
In this paper, an integral equation method is developed for calculating the magnetic field produced by the iron-shielded lens of arbitrary shape.
因此,能够以高精度且高效的方式测量透镜的形状。
Therefore, shape of the lens can be measured in a highly accurate and highly efficient way.
根据光学透镜成像原理,推导近端和远端物像与相机焦距、视角和物距的关系式及其像比,借此控制相机视图中远近两端物像的形状反差。
The relationships between images of near and far objects with camera lens and field of view and object distance and the image ratio are researched.
透镜可以采用多种形状,包括菲涅尔特征并且可以聚焦、准直或散焦该超声能量。
The lens may take a variety of shapes, including Fresnel features, and may focus, collimate, or defocus the ultrasonic energy.
详细研究了模板制备过程中的退火时间对所得微透镜的尺寸及形状的影响。
The effect of annealing time during the mold preparation process on the dimensions and shapes of the prepared microlens is investigated.
该第一吻合面与第二吻合面正对,且分别具有与该透镜的两相对表面相吻合的形状。
The first inosculation surface is opposite to the second inosculation surface, and the two respectively comprise the shapes which are inosculated with the two opposite surfaces of the lens.
液体透镜是使用液体制作而成的一个无机械部件,并通过控制液面形状实现无限变焦功能,有着非常广阔的应用前景。
It zooms the focal length by controlling the surface shape of liquid in a non-mechanical component, and has a broad application prospect.
液体透镜是使用液体制作而成的一个无机械部件,并通过控制液面形状实现无限变焦功能,有着非常广阔的应用前景。
It zooms the focal length by controlling the surface shape of liquid in a non-mechanical component, and has a broad application prospect.
应用推荐