对各种光波导器件的需求量也日益增大。
The demand of the optical waveguide device is increasing day by day.
得出光波导器件中多层介质的分析特性。
The resulting optical waveguide devices multilayer dielectric characteristics of the analysis.
弯曲波导是平面光波导器件中不可缺少的结构单元。
Bent waveguide is an indispensable unit of structure used in PLC (Planar Lightwave Circuit).
阶跃折射率光波导在理论上是所有其它光波导器件的基础。
The step index profile optical waveguide is the fundamentals of all other optical waveguide devices theoretically.
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.
本文开展了一系列基于SOI材料的MM I型光波导器件和光开关的研究。
In this thesis, a series of SOI-MMI optical waveguide components and optical switch es are studied.
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.
这种方法能直观完备地反映光波导器件的特性,准确快速地达到预期的设计要求。
This method can also be used to analyze the characters of optical waveguide and leading to the designation of optical waveguide quickly.
阵列波导光栅(awg)是一种典型的集成型光波导器件,具有优越的性能和广泛的应用前景。
As a typical integrated optical device, an arrayed-waveguide grating (AWG) has excellent performances and broad applications in e. g. optical communication systems.
于是出现了用数值分析方法来分析集成光波导,其中,光束传播法就是分析光波导器件的一种好方法。
Then numerical algorithms are used to analyze integrated optical wave-guide and beam propagation method is a good method which is widely used.
绝缘体上的硅(SOI)材料是制作平面光波导器件的一种主要材料,具有良好的光学、电学和机械特性。
Silicon-on-Insulator (SOI), boasting good optical, electronic and mechanical properties, is one of the common materials of Integrated Planar-Lightwave-Circuits (PLCs).
本文提出了一种集成光波导器件的数值模拟设计及优化方法,对其他的集成光波导器件的设计有着指导参考价值。
This thesis put forward a method to design and simulate a kind of waveguide component and will help to design other integrated waveguide components.
一种彩色显示器件,具有一个单独的光波导板,和分别独立地展现三原色和第一、第二、和第三光源。
A color display device has a single light guiding plate, and first, second and third light sources that respectively independently exhibit three primary colors.
该器件带有光波导结构并具有适当掺杂和有源层厚度。
These devices have optical waveguide structure, moderate doping level and active layer thickness.
在器件制作方面,最关键的是制作高品质的平面光波导。
The key point of the fabrication of integrated optical devices is to prepare the planar waveguide structure with high quality.
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.
结果可用于处理这类波导(如银离子交换玻璃光波导等)的模耦合或有关器件的问题。
The results can be used to deal with the relevant problems to the glass waveguide fabricated by Ag ion exchange technique.
本文讨论了集成有源和无源光波导的某些必要技术,并介绍了几种典型器件。
This paper discusses some techniques necessary to integrate native and passitive optical waveguides and describes several typical integrated devices.
光波导极化器是相干光通信系统的一个重要器件。
Optical waveguide polarizer is an important component in coherent optical com - munication system.
研究表明,室温下有源沟道具有较大的光增益和折射率增量,有望实现可见波段的可调谐有源光波导激光器件。
It shows that the active channel with sizeable optical gain and a substantial increase of the refractive index are promising for the realization of active waveguide tunable laser.
光纤陀螺中的一些器件如相位调制器和光学开关、消光器甚至光波导谐振腔都可以集成在一个多功能集成光学芯片上。
Devices such as phase modulators, optic switches and even optic waveguide resonators can be integrated on a multi functional integrated optic chip.
光波导以其独特的性质,在各种光器件的制造中起着重要的作用。
The specific properties of the waveguide have made waveguide play an important role in the fabrication of various optical devices.
表面等离子体光波导是实现全光回路的基础,其设计、制作和应用对于集成光学元器件走向微型化和高密度化具有重要的意义。
The SPWs are the foundation to achieve the optical circuit. The design, facture and application have great significance for integrated optical components to miniaturization and highly density.
给出的近似公式和特征曲线可供聚合物电光波导及其器件的设计和制备作参考。
The approximate formulae and characteristics curves can be provided as reference of design and preparation of polymeric electro-optics waveguide and its device.
分析表明,这种光波导制备技术参数可控,且重复性好,可用于低损耗光功分器件的制作。
It is proved that the fabrication process was adjustable with parameters and reliable on repeatability, which makes it suitable for optical power splitters with high performance.
分析表明,这种光波导制备技术参数可控,且重复性好,可用于低损耗光功分器件的制作。
It is proved that the fabrication process was adjustable with parameters and reliable on repeatability, which makes it suitable for optical power splitters with high performance.
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