光电子集成

POD与O-2.；光电子集成技术的进展

2 , between pod and o - . advances in optoelectronic integration

其最终目标之一是为了实现人们所期盼的全Si光电子集成电路。

One of the major goals of this study is to realize all - Si optoelectronic integrated circuit .

CMOS/SEED光电子集成Crossbar互连网络的实现及控制

The Implementation and Control of CMOS / SEED Optoelectronic Integrated Crossbar Interconnection Network

本文报道了光电子集成Crossbar互连网络的光学实现及电控制方法。

An optical implementation and its control of optoelectronic integrated crossbar interconnection network is reported in this paper .

而在光电子集成元件方面，微环谐振腔（Micro-ringResonator）作为典型光子集成的平面光波导回路，具备相当的经济性、结构紧凑性和可靠性。

And in the field of optoelectronic integrated components , micro-ring resonator is economical , structure-compacted and reliable , as a typical photonic integrated planar waveguide circuit .

由于Si基光发射材料具有与先进的Si微电子技术兼容和成本低廉的优势，一直是光电子集成（OEIC）工程应用的首选材料。

The silicon based optical emitting materials are always the first candidate materials for the optoelectronic IC ( OEIC ) and its engineering applications , due to its low cost and the excellent compatibility with the advanced Si technology in microelectronics .

1990年，Canham发现了室温下多孔硅的可见区域发光，为实现全硅光电子集成带来了希望。

Canham detected that porous silicon could emit visible light at room temperature in 1990 , which brought hopes for photoelectron integration on silicon basis .

光折变波导是集成光学和光电子集成器件（OEIC）的基本元件之一，在光通信、光互连和光学信息处理方面具有广泛应用。

Photorefractive waveguide is one of the basic units of integrated optical and optoelectronic integrated circuit ( OEIC ) . It allows a wide variety of applications in optical communication , optical interconnections and optical information processing .

光电子集成器件研究的新进展微光电子集成灵巧象素器件

Recent Development of Integrated Optoeletronic Devices Research on Micro-optoelectronic Integrated Smart Pixels

光电子集成中的异质外延与新材料研究

Investigations of Heteroepitaxy and New Semiconductor Materials for Optoelectronic Integration

光电子集成电路材料制作工艺的进展

Recent Advances in Material Technology for Optoelectronic Integrated Circuits

硅的可见光发射&通向全硅光电子集成之途

Visible Light Emission from Silicon ── The Route Towards All Silicon Optoelectronic Integration

全硅光电子集成电路的研究进展

Recent progress in all-silicon optoelectronic integrated circuits

硅基发光材料是未来光电子集成的基础材料。

Silicon based light emitting materials are the elemental materials for the future optoelectronic integration .

光电子集成技术及其应用

Optoelectronic Integration Technology and its Application

此外还将引入光信号，使之向纳米光电子集成发展。

Moreover , photon signals will be introduced into integration , which is to develop integrated nano-optoelectronics .

光电子集成技术的进展

Advances in optoelectronic integration

这些研究正酝酿着信息领域光电子集成技术的重大突破。

The experimental and theoretical studies on this subject are brewing a great break through in the integrated optoelectronic technology .

双光子技术在未来光电子集成、生物分子探测、医学诊断等领域具有巨大应用潜力和广阔应用前景。

Two photon excitation provides potential applications in optoelectronic integration , the detection of single biomolecules , and medical diagnosis .

然而硅基半导体材料不是好的发光体，限制了它们在光电子集成方面的应用。

The silicon semiconductor materials , however , is not good at luminescence which limits their application for the optoelectronic integration .

在集成电路和集成光路都有了相当程度发展的今天，发展光电子集成自然成为了当前研究的重点课题。

With the development of integrated circuits and integrated optics , the development of optoelectronic integration becomes the key topic of research .

该技术在光子集成和光电子集成电路（PIC's，OEIC's）中有广泛的应用前景。

This structure could be used in photon integrated circuits ( PIC 's ) and optoelectronic integrated circuits ( OEIC 's ) .

硅基的光电子集成以及光集成将满足未来信息传输处理的要求。

Optoelectronic integrated circuits ( OEICs ) and photonic integrated circuits on silicon substrate will meet the needs of information transmission and processing in the future .

用光子代替电子作为信息的载体，从微电子技术向光集成或光电子集成技术发展，成为必然的趋势。

Using photons to instead of electrons as the carrier of information , that microelectronic technology turn into photon integrated or optoelectronic integrated technology become an inevitable trend .

全硅光电子集成技术需要将光源、波导、波分复用器件、光栅、探测器等元件集成在一块硅片上。

Modern photoelectronics based on silicon calls for integration of light source , waveguide , WDM , grating , detector and other related functional devices onto one silicon chip .

硅基发光材料的发光波段已覆盖了从红外，可见到紫外的宽阔范围，正在为全色显示和光电子集成奠定材料和技术基础。

The luminescence has covered a broad band from infrared , visible to ultraviolet , and is establishing the material and technological foundation for the full-color display and optoelectronic integration .

1996年以多孔硅为基础材料的光电集成电路的实现使得这种前景更加诱人，同时也为全硅基光电子集成提供了可能。

In 1996 , it has generated more interest after photoelectron integrate circuit which porous silicon was the basic material . It is also provided impossible of whole silicon photoelectron integrate .

首先说明晶体管和激光管的发明、微电子集成电路、光电子集成和光子集成不断快速进展的情况。

The paper begins with briefly mentioning the discovery of transistor and laser , and the continuous rapid development of microelectronic integrated circuits , optoelectronic integration circuits and photonic integrated circuits .

提出了半导体光发射器件发展的五大方向，即单纵模、高速率、大功率、可见光和光电子集成技术。

Five directions for the development of semiconductor light emitting devices are prospected , i. e. , single longitudinal mode , high speed , high power , visible light and optoelectronic integration technique .

相干通信分强相干、中等相干、弱相干三类，现时应用大多是中等相干光纤通信，一俟光电子集成成功，定有广泛应用。

There are highly - coherent , medium-coherent and weakly-coherent systems , present applications are mostly of medium-coherent optical fiber communications , which will be widely used after the opto-electronic integration OEIC becomes successful .