本课程全面介绍了半导体物理及半导体器件的理论基础。
This course deals with the theory base of semiconductor physics and semiconductor device in detail.
分别比较了不同的半导体电子器件的材料、理论和所采用的制备技术。
And the materials, theories and manufacture techniques adopted by different semiconductor electron device are compared.
通过对序进应力加速寿命试验的研究,提出了一种快速评价半导体器件失效激活能的方法,建立了计算失效激活能的理论模型。
Basing on the study of progressive stress accelerated life test, a rapid evaluation method for electronic devices activation energy is proposed, and the theory model is constructed.
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.
对硅的位错形式和运动特性的研究对于进一步提高此类半导体器件的性能提供了理论上的帮助。
The study of the dislocation structures and their moving characters in Si can help to solve the problem of improving the performance of semiconductor materials.
本文利用散射矩阵和传输矩阵等方法研究了半导体异质结量子阱和一维光晶格体系中的量子输运特性,为设计和实现具有优良性能的量子过滤器件提供理论依据。
Our arm is to explore the physical mechanisms of the effects, and to supply physical models and make theoretical validity in designing novel quantum filtering devices with better properties.
本文利用散射矩阵和传输矩阵等方法研究了半导体异质结量子阱和一维光晶格体系中的量子输运特性,为设计和实现具有优良性能的量子过滤器件提供理论依据。
Our arm is to explore the physical mechanisms of the effects, and to supply physical models and make theoretical validity in designing novel quantum filtering devices with better properties.
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