纳米光电子器件正在成为下一代光电子器件的核心。
Nano-scale circuits are becoming the core of optoelectronic devices of the next generation.
本发明还涉及光电子器件的用途以及生产它的方法。
The invention further relates to the use of the optoelectronic device and to a method for producing the same.
可调谐波长转换器是智能化光网络中的关键光电子器件。
Tunable wavelength converters are key components in intelligent all-optical network.
光电子器件行业产品种类繁多,仅大的产品类别就有几十种。
In optical component industry, there are a variety of products, which can be divided into dozens of types.
最后介绍了分子束外延技术在光电子器件方面应用的最新进展。
The recent progress in the applications of the MBE techniques to optoelectronic devices is finally presented.
产品主要应用于微波、毫米波电路、高精密电路、光电子器件等。
Mainly used for microwave, millimeter-wave circuits, high-precision circuits and optoelectronic devices.
全光波长转换器是自动交换光网络中波长级交换的关键光电子器件。
An all optical wavelength converter (AOWC) is the key device for all optical net.
它在传感器、光电子器件、生物检测等多个领域具有潜在的应用前景。
It can be used in sensor, photoelectric device and biology. The development of photoelectric device and biology will benefit from nano-technique.
对有机发光二极管在传感器和光电子器件上应用的可能性进行了初步研究。
This paper explores the application probability of the organic light-emitting diodes(OLED) in the fields like sensors and optoelectronic devices.
两方法可为筛选光电子器件封装提供依据,并为优化封装的设计提供参考。
The two methods are useful for screening and optimizing the packaging of high-speed optoelectronics devices.
光互连与光交换系统的实现有赖于光开关,光探测器,激光器等光电子器件的进展。
The implement of optical interconnection and optical switching lies on the development of optical switch, photodetector (PD), laser etc.
主要研究方向包括:低维半导体物理及器件、光电子器件性能预测、固态量子信息。
The studying direction: low dimensional semiconductor physics and device physics, predictive properties of optoelectronics devices and the solid state quantum information.
本文介绍了光学薄膜和光电子器件用薄膜的技术和应用,以及真空镀膜及其应用结果。
The technology and applications of optical films and optoelectronic films are described, the vacuum coating system and the results of application are also demonstrated.
碳纳米管因其独特的结构和奇异的电学性能在下一代纳米电子和光电子器件中具有广阔的应用前景。
Carbon nanotubes (CNTs) have unique electronics and optical properties which destine them to play a major role in the next generation of nanoscale electronic and optoelectronic devices.
孤子激光器在光通讯、光计算、超高速现象的研究、超高速光电子器件的研制等方面有其独特的应用。
The soliton lasers can find many applications in optical computing, optical communications, ultrafast phenomenon research, developing ultrafast optoelectronics devices.
如果能用硅基cmos工艺来制作集成光电子器件,那么将会使集成光学在产业化的道理上迈进一大步。
If integrated optical device can be fabricated by CMOS technology, it will certainly fasten the development of the industrialization of the integrated optics.
本文采用理论、数值模拟、实验等方法系统的研究了MEMS和光电子器件气密封装工艺中的关键技术问题。
This dissertation conduct fundamental research into several key issues of hermetic MEMS and optoelectronic devices by integrating theory, numerical simulation, and experiments.
尤其是对于毫米波信号的产生、光电子器件的选择、光链路的结构及基站的设计等问题进行了较深入的讨论。
Special attention was put on production of millimeter wave, choice of optoelectronic device, architecture of down and up fiber optic links, etc.
半导体材料的非线性光学特性在光电子器件领域,如全光开关、光学限幅器、光波耦合器等方面有很好的应用价值。
The nonlinear optical properties of semiconductors were intensively used in the optoelectronic devices, such as all-optical switches, optical limiters and waveguide formation etc.
量子点中电子和空穴强的量子限制作用使其表现出一些新颖的物理性能,从而在微电子和光电子器件方面有着重要的应用价值。
Due to strong confinement effects of electrons and holes, QDs exhibit novel physical properties leading to important applications in microelectronics and optoelectronics.
公司产品包括半导体镭射器和探测器管芯、光电子器件、光收发模组三大系列,主要应用于数字、模拟通信以及光传感等领域。
The products of HG Genuine cover semiconductor laser and detector chip, active device, transceiver that are widely applied in communication and optical sensors.
纳米光电子技术是一门新兴的技术,近年来越来越受到世界各国的重视,而随着该技术产生的纳米光电子器件更是成为了人们关注的焦点。
As a new developing technique, the nanometer photoelectron technique is getting more notable in many countries of the world, and the nanometer photoelectron device is become the focus of attention.
同时对在PET基板上的膜做弯曲测量,发现膜的电导率并不随着弯曲次数的变化而变化,这就为聚苯胺作为光电子器件奠定了很好的基础。
At the same time in the PET substrate film, bent the films for 200 times, and we found than the conductivity of polyaniline not to change, this laid a good foundation for optoelectronic devices.
同时对在PET基板上的膜做弯曲测量,发现膜的电导率并不随着弯曲次数的变化而变化,这就为聚苯胺作为光电子器件奠定了很好的基础。
At the same time in the PET substrate film, bent the films for 200 times, and we found than the conductivity of polyaniline not to change, this laid a good foundation for optoelectronic devices.
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