对电子和光子技术的掌握,引发了许多技术创新,它们开创了现代世界,为我们提供了激光器、晶体管、光电池和微芯片。
Mastering electrons and photons has led to technological innovations that built the modern world and gave us lasers, transistors, photovoltaic cells and microchips.
生物、化学、计算机科学以及电子学领域的研究员都对微技术感兴趣。
The fields of biology, chemistry, computer science, and electronics are all of interest to researchers in nanotechnology.
微装配是电子制造、微制造、机器人操作等制造领域的共性前沿技术之一,近年来得到了广泛的研究与应用。
As one of the common frontier technology of IC manufacturing, micro-manufacturing, and robot manipulation, microassembly and micromanipulation have been researched widely recently.
利用微波吸收介电谱检测技术测得了还原增感立方体氯化银微晶光电子衰减随增感条件的变化规律。
The decay rule of photoelectrons in sensitized cubic AgCl microcrystal is obtained by microwave absorption dielectric spectrum detection technique.
在介绍微电网概念的基础上,论述了电力电子技术在分布式发电和微电网中的应用。
The concept of the MicroGrid is introduced, and then the application of power electronics technology in distributed generation and the MicroGrid is addressed.
随着微电子技术的飞速发展,现在的微处理的处理数据的能力越来越强。
With the boost development of micro-electronic technology, the microprocessor data-handling capacity is more and more strong now.
指出了微球板电子倍增器研制中的三项关键技术:玻璃微球的制作、分级,坯体的成型与烧结和打拿极制作。
It was concluded that the three key technologies are the glass microsphere classifying, MSP body molding and sintering, dynode making of MSP.
介绍了几种生物分子技术如生物传感器、微排列、电子鼻子和纳米装置用于食品中有害微生物的检测。
Present article deals with the various methods of food pathogen detection with bio-molecular electronic techniques such as biosensors, microarrays, electronic nose, and Nano-devices.
方法应用电子探针微区分析(EPMA)技术对初期釉质龋中化学成分的空间分布进行选定微区、线扫描及面扫描分析。
Methods the spatial distribution of the compositional elements in incipient enamel caries was obtained by spot selection, line and map analyses with electron probe microanalysis technique (EPMA).
用扫描电子显微镜和X射线衍射技术分析了微晶玻璃析晶和显微特征。
The crystallization and microstructure of the glass were investigated using scanning electron microscopy and X-ray diffraction technique.
器件和器件设计技术是微纳电子学的一个研究热点。
These devices themselves and the techniques of designing such devices have been now the hot research topics in the field of micro-nano-electronics.
微尺度下流体的流动,在工业、生物工程及电子信息技术有着广泛的应用。
The fluid flow in the micro channel has been widely applied in many fields such as industries, bio-engineering and electronic information technology.
2005年下一代热管理材料与系统会议文集。电子学与光子学中微尺度冷却的机遇挑战与技术解决方案,附光盘。
Next-generation Thermal Management Materials And Systems. Conference. 2005. Challenges Opportunities And Technology Solutions For Microscale Cooling In Photonics And Electronics (CD-ROM)
在现代电力电子技术基础上,开发出新型微能可控的微细电火花线切割加工脉冲电源。
Base on power electronic, a newly micro energy controlled pulse generator for MWEDM was developed.
国家重点实验室(光技术 应用于微 加工实验室),上海光学及电子研究所(批准号: )资助的课题。
Project supported by the State Key Laboratory of Optical Technology for Micro-fabrication Shanghai Institute of Optics and Electronics China (Grant No. ).
国家重点实验室(光技术 应用于微 加工实验室),上海光学及电子研究所(批准号: )资助的课题。
Project supported by the State Key Laboratory of Optical Technology for Micro-fabrication Shanghai Institute of Optics and Electronics China (Grant No. ).
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