现代的电子和光子器件都是小特征尺寸的固体结构。
Modern electronic and photonic devices are solid structures of small feature sizes.
指出飞秒激光微加工在光子器件领域的有很好的应用前景。
The femtosecond laser micromachining technique has extensive application prospects in the field of photonic devices.
提供一种包括光波导部分和光子器件安装部分的光波导器件。
An optical waveguide device which includes an optical waveguide part and a photonic device mounting part is provided.
光子器件存在三维结构,比二维结构的半导体集成要简单得多。
Photon parts of an apparatus has three-dimensional structure, the semiconductor that compares 2 dimension structure is compositive want complex much.
接着说明全光同所根据的光纤传输系统和光子器件与集成技术的进展。
Then, it describes the technological advances of optical fiber transmission and photonic devices and integration which are needed by the all-optical network.
论证了用于光控相控阵雷达的光电子技术,并给出了光子器件的选择依据。
Demonstrate the photonic technology applied to OCPAA system and offer reasons for choice in photonic apparatuses.
非线性光学材料在光开关,光限幅等光子器件应用开发方面具有很高的价值。
Materials that possess nonlinear optical (NLO) properties have investigated extensively for their potential applications in optical switches, optical limiting devices, and received much attention.
本论文主要研究纳米磁流体的相关磁光学性质,并探讨其在光子器件和材料上的应用。
This dissertation is mainly concerned with the magneto-optical properties of nanostructured magnetic fluid and its potential applications in photonic devices and materials.
一些新成果和新进展表明,这些光子器件与系统在当今和未来的光通信中将发挥重要作用。
Some new research achievements and new developments indicated that these photonic devices and systems would show important functions in current and forthcoming...
光网络的飞速发展,对光信息处理器件的要求越来越高,光子器件的集成变得越来越迫切。
The integration of photonic device becomes more and more important due to the fast developing optical network.
本发明比以往的光毫米波产生方法节约了昂贵的光子器件,并使得R OF系统的结构更加简单。
Compared with the prior method, the present invention can save the expensive photon components, and can ensure the structure of the ROF system to be simpler.
这种结构的金属薄膜在光印刷、近场显微镜和光子器件等方面有着广泛的应用前景,近年来引起了人们的重视。
There has been a great interest in such structured films due to its potential applications in photolithography, near field microscopy and photonic devices.
光与纳米金属复合结构相互作用产生的新现象和实现的新功能,在微纳传感探测、纳米光子器件及其集成等纳米光子学领域具有良好的应用前景。
The interactions of the light and metal composite nanostructures generate new phenomena and realize new function, which has potential applications in the nano-optics field.
精确得控制光子相位是基于独特得组合负和正的折射率器件。
This exact control of optical phase is based on a unique combination of negative and positive refractive indices.
另外,光子晶体也可以作为光子的导体制作各种各样的光器件。
Additional, photonic crystals can be used as the conductor of photon to produce various optical 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.
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.
本文对全光纤光子集成器件与系统进行了较为全面地综述。
All? Fiber photonic integrated devices and system were summarized in more details in this paper.
金属光子带隙结构在高能加速器、微波真空电子器件和太赫兹波源等方面具有重要的应用前景。
The metal photonic band gap structure has potentialities in the areas of high-energy accelerators, microwave vacuum electron devices, and terahertz radiation sources etc.
这些结果对于设计光子晶体器件有着指导作用。
These may give instruction in designing photonic crystal devices.
介绍了光子晶体光纤激光器的基本概念、特性及其典型器件。
The principle, characteristics of photonic crystal fiber lasers and their device are presented.
这些研究结果对设计菱形晶格结构的光子晶体光学集成器件具有重要的指导意义。
These results would provide theoretical instruction for designing optical integrated devices using photonic crystal with a rhombus lattice.
量子点光学微腔器件在低阈值激光器和单光子光源等量子信息处理技术领域有重要的应用前景。
Quantum dot optic microcavity device had potential application in field of quantum information technology using as the low threshold laser and single photon light source etc.
加工精度误差对光子晶体器件性能有较大影响。
The error of machining accuracy has relatively great influence on the performance of the photonic crystal device.
随着加工的精密化,基于表面等离子体激元的亚波长光子集成器件在理论和实验上得到广泛研究。
Along with the processing precision, the sub-wavelength photonic integration devices based on surface plasmon are widely researched at the basic theories and experiments.
在光子传输系统中,可调的光纤器件如全光可调谐激光器,全光可调光分插复用器等是非常重要一部分。
In a photonic transmission system, the tunable optical fiber devices, such as all-optical tunable lasers, all-optical tunable optical add-drop multiplexers, etc. are very important parts.
结果表明可以用光子晶体实现小尺寸、高偏振度的偏振器件。
Results indicate it can realize polarizer with small size and high degree of polarization by using photonic crystals.
光子学器件设计与制备。
光子学器件设计与制备。
应用推荐