课程大纲
COURSE SYLLABUS
1.
课程代码/名称
Course Code/Title
超快光谱学基础 Fundamentals of Ultrafast Spectroscopy
2.
课程性质
Compulsory/Elective
专业选修课
3.
开课单位
Offering Dept.
材料科学与工程
4.
课程学分/学时
Course Credit/Hours
3
5.
授课语言
Teaching Language
英语
6.
授课教师
Instructor(s)
钟锦辉 助理教
7.
开课学期
Semester
秋季学期
8.
是否面向本科生开放
Open to undergraduates
or not
9.
先修要求
Pre-requisites
注明 If the course is open to
undergraduates, please indicate the difference.
10.
教学目标
Course Objectives
注明 If the course is open to undergraduates, please indicate the
difference.
超快光谱学是利用超短脉冲飞秒激光研究光与物质相互作用的重要技术手段,材料、化学、物理等方向的发展
起重要作用。本课程注重培养学生掌握超快光学和光谱学的基本原理实验技术及前沿应用包括光与物相互作用
的基本原理、线性与非线性光学效应、超短激光脉冲的制备与表征方法、主要超快光谱方法简介(超快荧光、泵-
测、二维光谱等)、超快光谱学在材料化学物理领域中的典型应用。课内容将学生利用超快光谱学方法
开展光电信息和光电转换等领域的研究提供基础,也为相关领域培养人才。
Ultrafast spectroscopy is an important method to study the light-matter interaction using ultrashort
femtosecond laser pulses, which plays an important role in the development of the materials science,
chemistry, and physics. In this course, students are expected to learn the fundamentals of ultrafast
optics and spectroscopy, related experimental techniques, and the frontiers of the applications with
ultrafast spectroscopy. The contents of the course include the fundamentals of light-matter
interaction, linear and nonlinear optical effects, the generation and characterization of ultrashort
laser pulses, several typical ultrafast spectroscopic methods including ultrafast fluorescence, pump-
probe spectroscopy, and two-dimensional spectroscopy, and important applications of ultrafast
spectroscopy in materials science, chemistry, and physics. By attending this course, the students will
gain basis knowledge of ultrafast spectroscopy, which will be beneficial not only for performing
relevant experiments in scientific research but also for working in the field/industry of
optoelectronic technology and information, solar energy conversion, and laser instrumentation.
11.
教学方法
Teaching Methods
(如面向本科生开放,请注明区分内容。 If the course is open to undergraduates, please indicate the
difference.
以授课为主,注重基本原理讲解和实验技术介绍结合同时辅以简单的理论模拟计算训练,让学生以虚拟实
验的方式加深对超快光谱学原理的理解。
The course will be given in a series of lectures, with emphasize on the combination of the introduction
of fundamentals and the experimental techniques. The lecturers will also present simple simulations,
which will help the students to deepen the understanding of the principle of ultrafast spectroscopy.
12.
教学内容
Course Contents
(如面向本科生开放,请注明区分内容。 If the course is open to undergraduates, please indicate the
difference.
Section 1
超快光谱学导论 Introduction of ultrafast spectroscopy
Section 2
光与物质相互作基础 Fundamental of light-matter interaction
Section 3
线性与非线性光学效应 Linear and nonlinear optical effects
Section 4
超短脉冲的制备与表征方法 Generation and characterization of ultrashort
laser pulses
Section 5
超快光谱方法 Ultrafast spectroscopic methods
Section 6
超快光谱学在材料、化学、物理等领域的应用实例 Examples of the
applications of ultrafast spectroscopy in materials science, chemistry, and
physics
Section 7
超快光谱学的未来发展趋 Perspective of ultrafast spectroscopy
13.
课程考核
Course Assessment
1 Form of examination
2 .分数构成 grading policy
3 向本科生开放容。
If the course is open to undergraduates, please indicate the difference.
出勤 Attendance10%)、课堂表现 Class Performance10%)、小测验 Quiz20%)、平时作业 Assignments
20%)、课程项目 Projects20%)期末报告 Final Presentation20%
14.
教材及其它参考资料
Textbook and Supplementary Readings
Ultrafast Optics (by Andrew Weiner)