Content outline: Fundamentals of semiconductor physics;
内容概要 :半导体物理基础;
This course deals with the theory base of semiconductor physics and semiconductor device in detail.
本课程全面介绍了半导体物理及半导体器件的理论基础。
Since molecular beam epitaxy technique appeared, the research of semiconductor physics has gained many amazing break throughs.
自从分子束外延生长技术出现以来,半导体物理的研究获得许多惊人的突破。
Semiconductor physics is recognized as one of the major areas of condensed matter physics and the core of modern micro-electronics device technology.
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。
This course is the key fundamental course for engineering graduates majored IC engineering, and to teach the fundamentals of semiconductor physics and devices.
本课程是集成电路工程领域工程硕士的专业基础课程,旨在向学生介绍半导体物理与器件的基础知识。
The studying direction: low dimensional semiconductor physics and device physics, predictive properties of optoelectronics devices and the solid state quantum information.
主要研究方向包括:低维半导体物理及器件、光电子器件性能预测、固态量子信息。
Since pure radioactive ion beam can be implanted into material directly, research on solid physics especially on impurity and defect in semiconductor become possible.
由于可以将纯净放射性核束注入到样品中去,使得其在固态物理特别是涉及到半导体中的杂质和缺陷问题的应用成为可能。
Semiconductor Devices, Physics, and Technology.
半导体元件物理、物理和技术。
This class focuses on the physics of the interaction of photons with semiconductor materials.
本课程著重于光子与半导体材料之交互影响的物理学上。
The optical property of semiconductor heterostructures have received extensive attention in condensed matter physics in recent years.
半导体异质结的光学性质一直是凝聚态物理研究的热点之一。
This study is a step to develop a complete physics-of-failure-based reliability prediction methodology for semiconductor light-emitting devices.
文中介绍了一种基于概率方法的半导体发光器件可靠性预计模型。
This study is a step to develop a complete physics-of-failure-based reliability prediction methodology for semiconductor light-emitting devices.
文中介绍了一种基于概率方法的半导体发光器件可靠性预计模型。
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