PHY105B 大学物理 B(下)、固体物理、电动力学、光学
PHY105B college physics, solid state physics, electrodynamics, optics
1.了解材料基因组学的基本概念和核心思想,对材料基因组学有基本认识。
2. 了解基于连续和分立掩膜技术的高通量离子束溅射、热蒸发、磁控溅射、等离子体增强化
学气相沉积技术,以及基于材料基因组学思想的电、光、磁、热等性质的高通量表征技术。
3. 理解并掌握利用材料基因组学实现材料高通量筛选的基本实验手段。
4. 通过英语教学,培养学生的专业英语能力,掌握课程核心词汇,能够阅读英语专业文献。
5. 介绍材料基因组学的发展现状和前沿领域,培养学生自主学习和终身学习的意识。
1. Understand the basic concepts and core ideas of material genomics, and have a basic understanding of material genomics.
2. Understand high-throughput ion beam sputtering, thermal evaporation, magnetron sputtering, plasma-enhanced chemical vapor
deposition, based on continuous and discrete masking techniques. Also understand electrical, optical, magnetic, and thermal
properties based on high-throughput characterization technology of material genomics.
3. Understand and master the basic experimental methods of material genomics for high-throughput screening.
4. Through English teaching, students can cultivate their professional English ability, master the core vocabulary
of the course, and read English professional literature.
5. This course introduces the development status and frontier fields of material genomics, and cultivates students'
consciousness of independent learning and lifelong learning.
1.掌握材料科学与工程专业的基础理论知识,并能将其用于解决材料复杂工程问题的能力。
2. 具有综合运用材料科学与工程专业知识,分析材料复杂工程问题的能力。具有开发、选择
与使用现代专业检测技术和设备,分析材料专业复杂工程问题的能力,并能够理解其局限
性。
3. 能够熟练应用外语阅读专业文献资料,撰写报告和陈述发言,具有国际视野和跨文化交流