是光电器件的扫描数据被读取。
发光多孔硅是一种新型的光电器件材料。
Room temperature luminescent porous silicon is a new type of material for optoelectronic devices.
编辑:您如何看待光电器件的发展趋势?
低能带隙聚合物对光电器件具有重要的意义。
It is important of applications of low band gap polymers to improve the properties of their photoelectric devices.
热-力破坏效应是导致光电器件激光损伤的重要因素。
Thermal and mechanical breakage is the key factor of laser damage on optical and photoelectric elements.
光电器件的饱和现象一直是激光训练系统中的技术难题。
Photoelectric saturation is the difficult technical problem in laser simulating system.
扫描仪的光电器件是条状的,它识别图形的过程是运动的。
Scanner is a strip of optoelectronic devices, and it is the process of graphics recognition campaign.
在光电技术产业化的过程中,光电器件的重要性日益现显。
In the process of photoelectric technology industrialization, the importance of photoelectric devices increasingly appears.
实验显示出缺氧钙钛矿薄膜在光电器件上的巨大应用潜力。
The results show potential application of oxygen-deficient LCMO thin films in optoelectronic devices.
最终采用衍射光栅单色仪作为测量光电器件光谱特性的设备。
Finally adopted a diffraction grating monochromator spectral characteristics of optoelectronic devices as measuring equipment.
结果提供了参考进一步的目标化合物的有机光电器件中的应用。
The results give a reference to further application to organic optoelectronic device of the target compound.
该技术可使光电器件和电子器件的性能得到明显的改进和提高。
It can substantially improve the performance of photonic devices and electronic devices.
本文的研究结果为提高光电器件的光电转换性能提供了新的思路。
The research results in this paper provide a new idea to improve the photoelectric conversion properties of photoelectric devices.
展望了透明导电聚苯胺薄膜在光电器件和微电子器件领域的应用前景。
The application prospect of the transparent and conducting polyaniline films in optoelectronic and microelectronic devices is forecasted.
一维半导体纳米结构在光学、光电器件及介电等领域有着广泛的应用前景。
Nanostructure of one-dimensional semiconductor has a wide application prospect in the fields of optics, optoelectronic devices and dielectric.
这项研究致力于改善光电器件导电载体结构(基材和上层材质)生产技术。
The study focuses on improving the fabrication methods of conductive carrier structures(substrates and superstratum) in optoelectronic devices.
是一种良好的电子受体,能形成D-A型分子体系,从而用于光电器件设计;
C60 is a good electron acceptor, can make D-A molecular which is applied to photovoltaic devices designing;
报导我国光电器件、液晶显示器件,红外,激光产品在1996年内市场情况。
The 1996 markets for LED, LCD, IR and lasers products in China are described.
介绍了一种新型光电器件,即双绝缘层MIMIS隧道发光器件的结构和制备。
The structure and fabrication of double-insulation layer tunnel junction(MIMIS) are introduced.
电子束蒸发台是制作半导体、光电器件的必要设备,对器件的性能有很大的影响。
Electron beam deposit facilities are necessary for making semi-conductor devices and have an effect on the performance of the device obviously.
该方法构思巧妙,用少量光电器件接收大量的光信号,以解决灵敏度与分辨率的矛盾。
In this ingenious method, a great quantity of light signal can be received by the few light-seeking device, the contradiction of sensitivity and resolving power can also be settled.
红外焦平面阵列(IRFPA)是红外成像技术中获取红外图像信号的核心光电器件。
Infrared focus plane array (IRFPA) is the critical part of image technology to acquire infrared image signal.
纳米器件包括纳米电子器件和纳米光电器件,是未来新型仪器、设备生产与制造的基础。
Nanodevices includes nano-electronic devices and nano light electronic devices. It is the foundation of designing and manufacturing of new apparatus and equipage.
对国内外有关该材料在固体发光方面的研究现状和进展及其在光电器件上的应用作了讨论。
The present situation and development about the research of this material on solid state luminescence and its application on optoelectronic devices are discussed.
目前本设计已应用到光电器件CMOS图象传感器的数据传输并通过了FPGA原型验证。
The design has been used in the data transmission of CMOS image sensor and has passed the FPGA prototype verification correctly.
叙述了为测量半导体光电器件的光电流谱和光反射谱所构成的自动测量系统及其数据处理方法。
The automatic measurement system and the data processing method are discussed for microspot photocurrent spectrum and reflection spectrum of semiconductor optoelectronic devices.
本发明的顶出光电极可以广泛应用于无机薄膜和半导体发光,以及光电器件和光探测器等方面。
The inventive ejection optical electrode can be widely used in inorganic film and semi-conductor to light, and the photoelectric device and optical detector.
非电离能损(NIEL)引起的位移损伤是导致空间辐射环境中新型光电器件失效的主要因素。
The displacement damage due to non-ionizing energy loss (NIEL) is the main reason of device-malfunction in spatial radiation environments.
用有机半导体、导体材料制造出各种电子器件、光电器件、光学器件的梦想正在逐步变为现实。
The dream of using semiconducting and metallic polymers for fabricating novel photonic devices, electronic devices, and optical devices is becoming reality.
在非线性光学材料、分子光电器件、有机半导材料以及化学传感器等方面都具有广阔的应用前景。
The derivative has wide application prospect in the aspects of non-linear optical materials, molecular photoelectric devices, organic semiconductor materials, chemical sensors and the like.
应用推荐