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.
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.
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.
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.
基于光子晶体中色散和非线性现象的研究使光器件的小型化成为可能,这对将来实现各种光器件的制作和集成具有重要的意义。
There is an important meaning that studying the dispersive and nonlinear phenomena of photonic crystals for the fabrication and integration of optical apparatuses.
从集成光子学多路、高精度微波移相器在光控相控阵雷达系统中的应用背景出发,探讨了该器件的研究进展和应用前景。
The research development of integrated photonic multi-channel high precision microwave phase shifter is described, considering its applications in optical phased-array radar system.
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.
正被广泛研究的有机材料是这三类材料中研究历史最短的,但其近年来的实验研究结果表明,它在光子学器件和集成方面有着极大的潜在应用价值。
In recent years, research results have shown that organic materials will be potential and of high value of the application in photonic devices and integration.
本发明易于与光子晶体器件集成、尺寸短、单模输出。
The invention is easy to be integrated with photon crystal elements and is of a shorter size, single mode output.
缺陷晶格的构造与研究是实现全光子集成器件的重要课题。
The fabrication and research of lattices with defect are a important task for the implementation of the all integrated photonic devices.
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.
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.
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.
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