此课程为英文授课 English-taught Course

（此门课程已加入电气学院研究生课程列表，需要选修的同学可在选课系统开放后选择此门课程并确认班级. This course has been added to the School of Electrical Engineering Graduate Course List, please register for this course online and confirm the class during the system is opened. International Students: please submit the “Course adding/dropping form” to East Building I Room 226 AND confirm the class online BEFORE March 19^th, i.e. within two weeks from the beginning of the course）

课程编码 Course Code： 043073

课程名称 Course Title：（中CH）应用固态物理的先进论题

课程名称 Course Title：（英EN）Advanced Topics of Applied Solid-state Physics

授课教师 Lecturer：Michel Frechette

授课教师联系方式 Contact： frechette.mick@gmail.com

课程类型 Category：选修课 Optional Course

授课时间 Course Schedule：第2-9周，每周一、周四5-6节 WEEK 2-9, Monday & Thursday Section 5-6 (Summer Time: 14:30-16:20; Winter Time: 14:00-15:50)

学分数 Credit(s)：2

课内总学时数 Hour(s)：32

课程内容简介 Course Description：

课程目的：向工学学生介绍固态物理学的现代先进概念。工学学生将联系如何创建材料-系统实验并认识多种基于材料应用物理的解读方式。

本课程向学生教授固态物理先进概念的基础知识。了解基本概念及理论后，部分电介质、电气绝缘及电能相关的应用被解读。鉴于固态物理学涉面较广，本课程将选择性讲授几个主题，并侧重纳米科技及纳米电介质相关知识。

Course Aim: To introduce to engineers modern and advanced notions of solid-state physics. To train the engineers to better formulate their material-systems experiments and to introduce a vaster field of possible interpretations based on the material applied physics.

This course offers a simplified approach for the engineer relating to the more advanced notions of solid-state physics. After the introduction of many simplified notions and concepts of solid-state physics, a selection of applications related to dielectrics, electrical insulation and energy will be considered. In view of the broadness of solid-state physics, here only a selection of topics is explored yet with some emphasis on nanotechnology and nanodielectrics.

先修课程 Prerequisite Course(s)：

固态物理相关基础课程 Courses related to Solid State Physics are recommended

课时分布 Hours Distribution：

Teaching Hours：28h

Problem Solving: 2h

Literature Discussion: 2h

教学大纲 Course Outline

Section I: Basic Solid-state Physics

Section II: Useful Concepts and Many-body Physics

Sections III: Quantum Mechanics – Specific Notions

Sections IV: Objects and Structures of Interest

Section V: Physics of Semiconductors and Quantum dots

Section VI: Applications involving Semiconductors

Section VII: Physics of Carbon Objects and C70

Section VIII: Applications involving C-based Materials

Section IX: Mott Insulators

Section X: Electronic Properties leading to Conduction

Section XI: Optical Processes and Photonic Crystals

Section XII: Energy Harvesting and Storage Battery

Section XIII: Advanced Concept of Photovoltaics

Section XIV: High-temperature Superconductivity

Section XV: Smart, Green, Smarter, Greener Materials

Practical: 2 hours

Group study (discussion): 2 hours

Section I to section XV contains 28 hours lectures

参考书目 Reference:

1. Charles Kittel, Introduction to Solid-state Physics, 8th edition, John Wiley and sons, 2005