他对微电子学的研究很有创见。
He has lots of original ideas about the research into microelectronics.
例如,可以使用“微电子学”这个单词来标记一篇关于微电子学的文章,即使“微电子学”这个术语根本没有出现在文档本身的内容中。
For example, a paper about microelectronics could be tagged with that word — even if the term "microelectronics" does not appear in the content of the document itself.
在其苏黎世研究实验室,来自20多个国家的约300位科学家主攻微电子学、纳米技术和计算机安全等领域。
At its Zurich Research Laboratory around 300 scientists representing over 20 nationalities concentrate on areas such as microelectronics, nanotechnology and computer security.
微电子学的基础是近代固体物理。
The foundation of microelectronics is modern solid state physics.
介绍微电子学中精密电阻的激光微调原理、系统组成及微调方法。
This paper introduces the basic principle, the methods and the system constitution of the laser trimming technology for precise resistors in microelectronics.
例如,今天的核物理学、生物工程学、微电子学等专业领域中,由于有了新的发现,也就冒出了一些新的问题。
Today, for example, problems are arising from new discoveries in the fields of nuclear physics, biological engineering and microelectronics.
场发射阵列阴极(FEA)作为真空微电子学的核心内容,其性能的好坏直接影响着场发射器件的总体性能。
As the core content of vacuum microelectronics, the performance of field emitter array (FEA) directly influences the whole performance of field emission device.
三维微电子学主要研究三维集成电路的设计与制造。
Three-dimensional microelectronics focuses on the design and fabrication technology for 3-d integrated circuits.
柔性生产线是将微电子学、计算机和系统工程等技术有机地结合起来,解决机械制造自动化与柔性化的复杂系统。
Flexible production line is a complex system integrating microelectronics, computer and systems engineering technology to satisfy automation and flexible machinery manufacturing.
微电子学是信息产业的支柱,大力发展拥有自主产权的微电子技术及其产业是形势的需要。
Microelectronics is the pillar of information technology, so we must develop our own intellectual property in order to meet the demand of situation.
它是从微电子学到奈米电子学的自然演进。
It would be a natural evolution of microelectronics to become nanoelectronics.
在介绍硅微电子机械学的同时,给出了硅微电子机械加工方法和微小器件实例。
The silicon microelectromechanism is introduced in this paper. The micro-electro-machining methods and many examples of the micro devices are also given.
这一特性使它有可能在新一代微电子设备中发挥重要作用,并为极化输运理论及自旋电子学的研究开辟崭新的领域。
This property makes it possible for them to play a key role in future electronic devices and to offer an interesting field for the study of spin-polarized transport theory and spin electronics.
但是在传统微电子学之中,电子只是被当作电荷的载体,它的自旋特性一直未被引起重视。
In conventional microelectronics, however, the spin of electron, which was simply seen as a carrier of charges, barely caught attentions.
相应的,半导体电子学(微电子学)、激光电子学和相对论电子学等现代电子学领域则发端于此。
Accordingly the modern electronics such as the semiconductor electronics (microelectronics), the laser electronics and the relativistic electronics etc began to develop.
介绍了四川大学微电子学实验室的建设成果及微电子学专业教学改革的实践措施。
The article introduced the building achievement of the micro-electronic laboratory and the practical measures of the teaching reform of micro-electronic in Sichuan University.
这里有麻省理工微电子学网络实验室的资料。
Documentation about the MIT Microelectronics WebLab can be found here.
本课程是电子科学与技术专业和微电子学专业的专业课,并与本专业的其他相关专业课程密切联系。
This course is one of the specialty courses for electrical science & technology major and microelectronics major, and is tightly related to other specialty courses.
基因芯片技术是近年来出现的分子生物学与微电子技术相结合的最新DNA分析检测技术。
Gene chip technology is the latest DNA analysis and examining technology which combined molecular biology with microelectronics.
本发明属于微电子学与固体电子学领域的超大规模集成电路设计,是一种采用电感实现的射频信号集成静电释放保护电路。
The invention belongs to SLSI design of field of microelectronics and solid electronics; it is a radio-frequency signal integration static release protecting circuit realized by inductance.
这些成就是IBM公司设在日本大和雅马拓公司和美国纽约约克敦海茨科研小组在光学、液晶化学和微电子学领域逐步取得科技进步的结果。
This achievement has come as a result of gradual improvements in optics, liquid-crystal chemistry and microelectronics made by IBM groups in Yamato, Japan, and Yorktown Heights, New York.
半导体物理学是凝聚态物理学的一个重要分支,也是现代微电子器件工艺学的理论核心。
Semiconductor physics is recognized as one of the major areas of condensed matter physics and the core of modern micro-electronics device technology.
微电子学以研究和控制电子的电荷及其输运特性为主要内容,是现代信息技术的基石。
Microelectronics features studying and controlling the charges and transport properties of electrons, and is the basis of modern information technology.
一个非正式的字,为加到某未经确认的知识名称后面而成学科名字,如微电子学。
To them botany, as such, has no name and is probably not even recognized as a special branch of " knowledge" at all.
一个非正式的字,为加到某未经确认的知识名称后面而成学科名字,如微电子学。
To them botany, as such, has no name and is probably not even recognized as a special branch of " knowledge" at all.
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