半导体光电子器件

  • 网络semiconductor optoelectronic devices
半导体光电子器件半导体光电子器件
  1. 在诸多的光电子器件中,论文仅对AON中某些关键的半导体光电子器件的重要性和发展趋势予以评论。

    Some of key semiconductor optoelectronic devices in AON and their developing trend is discussed .

  2. 面向21世纪的半导体光电子器件

    Semiconductor optoelectronic devices in the face of 21st century

  3. 光电集成电路是一类将半导体光电子器件和电子器件集成在同一芯片或衬底上的新型光电子器件,在过去的十年中,光电集成电路(OEIC)的研究集中在光接收机。

    The optoelectronic integrated circuit ( OEIC ) is a new device which combined semiconductor-photoelectric devices and other devices on the same chips or underlays . In the last 10 years , the research of OEIC focused mainly on optoelectronic receiver .

  4. 蓝绿光半导体光电子器件的研究与发展现状

    An Overview on the Research and Development of Semiconductor Blue-green Optoelectronic Devices

  5. 日本半导体光电子器件研究与开发的新进展

    Recent Progress in Research and Development on Semiconductor Optoelectronic Devices in Japan

  6. 半导体光电子器件的研究进展

    Recent advances of semiconductor optoelectronic devices

  7. 量子阱结构是半导体光电子器件的核心组成部分,它是半导体光电子集成的重要基础。

    Quantum wells are the foundation for semiconductor optoelectronics integrated circuits as well as the key part of optoelectronic devices .

  8. 新一代光纤通信的发展依赖于半导体光电子器件方面的突破。

    The development of a new generation of optical fiber communication is dependent on the breakthroughs of the semiconductor optoelectronic devices .

  9. 光电子技术发展推动着信息时代的变革,作为其心脏的半导体光电子器件正带动着一个新兴产业&光电子产业。

    Optoelectronic technology is promoting the transform of information age , and its key component , optoelectronic devices are bring along a new industry optoelectronic industry .

  10. 作为大规模集成电路和化合物半导体光电子器件的制造技术共同构成的一门高新技术,硅基光电子技术越来越受到重视。

    As a new high technology , combing the fabrication techniques of IC and compound optical devices , Si-based optoelectronic technology has become more and more attractive .

  11. 随着科学技术突飞猛进式的发展进步以及人们对未来的半导体光电子器件在对其运算处理速率、低功耗和微型化等方面越来越高的诉求,使得半导体纳米器件的有着日新月异变化。

    With the rapid development of science and technology , the semiconductor devices have been updated quickly on the Processing speed , low power consumption and microminiaturization .

  12. 经过近半个世纪的发展,半导体激光器在光电子器件和通讯领域内已经得到了广泛的研究和应用。

    The semiconductor lasers already have a wide range of research and application in optoelectronic devices and communication field after nearly half a century of development .

  13. 近些年来,掺饵光纤放大器(EDFA)、LD泵浦固体激光器、LD泵浦光纤激光器以及半导体光放大器等光电子器件与系统的研究越来越活跃,显示出广阔的应用前景。

    In the last few years , researches about the characteristics of EDFA , LD pump solid laser , LD pump optic fiber laser and semiconductor optical amplifier are becoming more and more active and wide application prospect is demonstrated .

  14. 半导体量子电子和光电子器件

    Semiconductor quantum devices in electronics and Optoelectronics

  15. 金属一半导体接触(欧姆接触和肖特基接触)是所有半导体电子器件和光电子器件的核心结构之一。

    Metal-semiconductor contacts including Ohmic contact and Schottky contact are the essential parts of virtually all semiconductor electronic and optoelectronic devices .

  16. 介绍了半导体量子点在光电子器件和生物医学方面的应用,并对其发展前景进行了展望。

    Particularly , the progress and applications of semiconductor quantum dots in optoelectronic devices and biomedicine were reviewed , and the perspective of the development was viewed .

  17. 近年来量子阱、量子点等低维结构研究获得飞速的进展,已大大促进了激子效应在新型半导体光源和半导体非线性光电子器件领域的应用。

    The progress obtained recently in investigations on quantum wells , quantum dots and other low-dimensional structures have greatly promoted the applications of excitonic effects in many new semiconductor light sources and non-linear opto-electronic devices .

  18. 半导体超晶格材料的研究和发展,把半导体光电子器件的研究和发展推进到一个崭新的阶段。

    Semiconductor opto-electronic devices have been forged up into a wholly new stage by the research and development of semiconductor superlattice materials .

  19. 半导体微结构物理效应及其应用讲座第1讲布拉格衍射效应在半导体光电子器件中的应用与发展

    Application of bragg diffraction in the development of semiconductor opto-electronic devices