这给光学器件的设计提供了重要的依据。
电视装置用的器件也可以认为是光学器件。
Television equipment makes use of devices that can also be considered optical.
这个时候另一个光学器件,外地镜头来抢救。
This time another optical device, the field lens came to the rescue.
灰度掩模法是一种新的二元光学器件制做方法。
Gray scale mask method is a novel way of fabricating binary optical elements.
所得二元光学器件表面具有多位相的浮雕结构。
The relief surface of the element is of multiphase structure.
提出基于衍射光学器件的光学图像级联加密系统。
Cascaded systems for optical image encryption based on diffractive optical elements are presented.
提出基于衍射光学器件的光学图像级联加密系统。
Cascaded systems based on diffractive optical elements for optical image encryption are presented.
目前,它们被封装进检测光信号的光学器件,以记录磁场的强度。
Recently, they were packaged with fiber optics for detecting the light signals that register magnetic field strength.
面发光装置,制造面发光装置的方法,以及光学器件。
Area light emitting device, method for manufacturing area light emitting device, and optical device.
每位被测妇女都观看一个光学器件,其快速连续的显示三个小圆盘。
Each woman looks into an optical device that shows her three tiny discs in rapid succession.
近年来出现了新的光学器件和新的光学理论—光子晶体。
Recently it appears new optical apparatus and new optical theory-photonic crystals.
图6显示了包括一系列收集光学器件与光学集中器的光学系统。
FIG. 6 shows an optical system that includes a series of collection optics and optical concentrators.
含有不连续性结构的波导广泛应用于微波毫米波以及光学器件中。
Waveguides with discontinuities have many applications in microwave, millimeter wave and optical circuits.
计算了高反薄膜的相位变化,分析了光学薄膜的相位对光学器件的影响。
The phase variation of the HR films was calculated and the influence of the phase of coatings on optical devices was investigated.
Metaflex可以被广泛使用于光学器件和智能服装制造,他补充说。
Metaflex could have a wide use in optics as well as smart clothing, he added.
发现并研究了衍射光学器件优化设计中空间延拓分量的存在及其交叠现象。
The existence and overlapping phenomena of spatial expanding components have been discovered and investigated in designing diffractive optical elements.
文中阐述了与不同加工阶段相关的自由曲面光学器件检测中的问题和对策。
This paper gives a survey of problems and solutions in inspection of free-form optics, associated with different manufacturing processes.
这一特征长周期为嵌段共聚物材料用作光波导等光学器件提供了结构基础。
The long-range lamellar morphology can offer block copolymers as a structural basis for optical waveguides and related devices.
光子晶体可以用来制备全新原理、高性能的光学器件,具有广阔的应用前景。
The photonic band gap materials have wide potential applications in fabricating new type of optical devices.
最近梯度折射(GRIN)光学器件的设计制造有望使这一切成为可能,而且影响深远。
Recent advances in the design and fabrication of gradient index (GRIN) optics promises to make this possible, and the implications will be far-reaching.
SOI光波导是硅基光波导器件的基础,也是实现其它集成光学器件的基础。
Silicon-on-insulator (abbreviated as SOI) optical waveguide is the base of silicon-based optical waveguide devices and other integrated optical devices.
由于半导体量子阱线中激子和复杂激子的特性在光学器件中有着重要的作用。
There is significant current interest in the exitonic properties and complicated exitonic properties in semiconductor quantum-well wires because of their role in optoelectronic applications.
光纤光栅是一种新兴的光学器件,在光纤通信和光纤传感器等方面有着重要应用。
Fiber grating is a kind of new optical devices which are playing important roles in optical communication and optical sensors.
基于高斯分布随机信号模型,分析了二元光学器件对输入波面位相畸变的宽容度。
The tolerance of the BOE to the phase distortion with Gauss distribution of the input laser beam and the manufacturing error are analyzed.
用来观察物体细节的简单目视光学器件,是焦距比眼的明视距离小得多的会聚透镜。
Used to observe the details of a simple visual objects, optical devices, is the focal length than the distance between eyes, as much out of the convergence lens.
该地区体育会扩展能力的任何光学器件-你不能只观察一个对象,而且听声音来自它。
The DSAS extends the capabilities of any optical device - you can not only observe an object but also listen to sound emanating from it.
记录得到的偏振光栅可以控制光束的传播方向和偏振态,在功能性光学器件中有很大应用价值。
The obtained polarization gratings are very useful for highly functionalized optical devices because they can control both the beam propagation direction and polarization state.
利用光子晶体的缺陷可以实现引导电磁波的目的,可以制作各种各样性能优异的光子晶体光学器件。
We can use the defect in the photonic crystal to guide the electromagnetic wave, and this photonic crystal with defect can be used to make photonic crystal devices.
利用光子晶体的缺陷可以实现引导电磁波的目的,可以制作各种各样性能优异的光子晶体光学器件。
We can use the defect in the photonic crystal to guide the electromagnetic wave, and this photonic crystal with defect can be used to make photonic crystal devices.
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