这一技术的突破点是波导插槽使用,用来将光波的能量聚集到与目标分子同样小的等级,克服之前由光的衍射所造成的限制。
The breakthrough is the use of the slot waveguide, which condenses a light wave's energy to scales as small as the target molecules, overcoming prior limitations caused by light diffraction.
由使用棱镜耦合器的一种新技术即漏模法,测量了平板玻璃光波导的参数(薄膜的折射率和厚度)。
The parameters of the optical slab glass waveguide (refractive index and thickness of thin film) were measured by a new technique for using the prism coupler, i. e., leaky mode method.
光波导显微术是在表面等离子波显微术(SPM)基础上的一项新技术。
Optical glass waveguides microcopy is a new promising technology based on SPM.
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.
文章介绍了硅基光波导、光探测器和CMOS电路的单片集成技术。
Monolithic integration technique for optical waveguides and photodetectors with CMOS circuits on silicon is presented in this paper.
并在此基础上,提出了以金属掩模,利用光漂白技术制备聚酰亚胺脊型光波导的新方法。
On this basis a new method for fabricating polyimide ridge waveguides by photobleaching technique and using metal mask is proposed.
简介光波导的种类,讨论几种常用的光耦合技术和波导材料。
The types of optical waveguides are outlined, followed by a discussion of commonly used optical coupling techniques and waveguide materials.
本文旨在用离子自组装技术制备薄膜光波导和光学薄膜,为进一步的研究打下基础。
This paper aims at finding out how to fabricate thin films optical waveguide and optical thin films by using this technology so as to lay a foundation for a further study.
以硅基光电集成回路为主线,综述了不同的硅基光波导材料的制备技术和硅基光波导的制作工艺及其对光传输损耗的影响。
In this paper different silicon-based materials of optical waveguide and its loss characteristics are introduced, with focus on silicon-based optic electronics integrated circuit (OEIC).
报道了一种用电子束曝光的方法在绝缘体上硅的脊状光波导上制做布拉格光栅的技术。
The fabrication of Bragg gratings on silicon-on-insulator (SOI) rib waveguides using electron-beam lithography is presented.
本文主要研究气相质子交换法制作铌酸锂光波导的技术。
In this paper, the vapour phase proton-exchange methods (VPPE) are studied.
迄今为止,人们已经利用离子注入技术在光学晶体、玻璃、半导体以及有机聚合物等大量光学材料中形成了光波导结构。
Up to now, many waveguide structures have been formed by ion implantation in various materials such as optical crystals, glasses, semiconductors and polymers, etc.
离子注入技术已成为制备光波导的有效手段之一。
Ion implantation has become one of the most promising techniques for the fabrication of various waveguides.
近几年来,微纳光波导在制备技术上获得了突破,并具有很多特殊性质,包括低损耗、强倏逝波场等。
Recently, a breakthrough has been made in the fabrication of the silica nano-wire waveguides. It has many special properties, such as low-loss, strong evanescent-field and so on.
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.
以硅烷和氧化二氮作为反应气体,采用等离子体增强化学气相沉积(PECVD)技术,不使用掺杂,在单晶硅衬底上制备了用于平面光波导的二氧化硅薄膜。
Without doping, plasma enhanced chemical vapor deposition (PECVD) of silica films on si substrates with gas mixtures of SiH_4 and N_2O is considered.
以硅烷和氧化二氮作为反应气体,采用等离子体增强化学气相沉积(PECVD)技术,不使用掺杂,在单晶硅衬底上制备了用于平面光波导的二氧化硅薄膜。
Without doping, plasma enhanced chemical vapor deposition (PECVD) of silica films on si substrates with gas mixtures of SiH_4 and N_2O is considered.
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