1
课程详述
COURSE SPECIFICATION
以下课程信息可能根据实际授课需要或在课程检讨之后产生变动。如对课程有任何疑问,请联
系授课教师。
The course information as follows may be subject to change, either during the session because of unforeseen
circumstances, or following review of the course at the end of the session. Queries about the course should be
directed to the course instructor.
1.
课程名称 Course Title
量子力学 II Quantum Mechanics II
2.
授课院系
Originating Department
物理系 Department of Physics
3.
课程编号
Course Code
PHY305
4.
课程学分 Credit Value
3
5.
课程类别
Course Type
专业必修 major required
6.
授课学期
Semester
秋季 Fall
7.
授课语言
Teaching Language
中文授课,英文教材。
8.
他授课教师)
Instructor(s), Affiliation&
Contact
For team teaching, please list
all instructors
卢海舟,副教授,物理系
第二科研楼 208
LU Haizhou, Associate Professor, Department of Physics
Rm. 208, No.2 Research Bldg.
luhz@sustc.edu.cn
0755-88018175
9.
/
方式
Tutor/TA(s), Contact
待公布 To be announced
10.
选课人数限额(不填)
Maximum Enrolment
Optional
授课方式
Delivery Method
习题/辅导/讨论
Tutorials
实验/实习
Lab/Practical
其它(请具体注明)
OtherPlease specify
总学时
Total
11.
学时数
Credit Hours
16(另外安排,不
占用上课时间)
0
考试周不算入总学时
48
2
12.
先修课程、其它学习要求
Pre-requisites or Other
Academic Requirements
量子力学 I Introduction to Quantum Mechanics PHY206-15
13.
后续课程、其它学习规划
Courses for which this course
is a pre-requisite
本课程为物理系必修专业核心课程。Required by B.Sc. degree with a major in Physics.
14.
其它要求修读本课程的学系
Cross-listing Dept.
其它需要相关量子力学知识的学科院系也可以学修本门课程。Open for other related
disciplines if required.
教学大纲及教学日历 SYLLABUS
15.
教学目标 Course Objectives
量子力学 II 是由物理系开设,面向物理专业的必修课程。它介绍描述量子力学原理在微观世界中的应用。修完本课程,要
求了解定态微扰理论,变分法,WKB 近似,含时微扰,绝热近似,散射理论。
Quantum Mechanics II is a physics major core course. It introduces the principles of quantum mechanics and its
applications, including the time-independent perturbation, variational principle, WKB approximation, time-dependent
perturbation, adiabatic approximation, scattering theory, and other relative topics.
16.
预达学习成果 Learning Outcomes
熟练掌握量子力学的基本原理以及各种近似方法,并能够运用量子力学的知识解释和处理相关的物理现象
After learning this course, students should be familiar with the fundamental principles of quantum mechanics and several
approximate methods, and utilize the knowledge to deal with microscopic quantum phenomena.
17.
课程内容及教学日历 (如授课语言以英文为主,则课程内容介绍可以用英文;如团队教学或模块教学,教学日历须注明
主讲人)
Course Contents (in Parts/Chapters/Sections/Weeks. Please notify name of instructor for course section(s), if
this is a team teaching or module course.)
Week 01 Nondegenerate Perturbation Theory
Week 02 Degenerate Perturbation Theory
Week 02 Fine Structure of Hydrogen - Relativistic correction
Week 03 Fine Structure of Hydrogen - Spin-orbit coupling
Week 04 Zeeman Effect
Week 05 Hyperfine splitting and Review of Chapter 6
Week 06 Theory of Variational Principle
Week 06 Ground state of Helium
Week 07 Hydrogen Molecule Ion
Week 08 Classical Region of WKB Approximation
Week 08 Tunnelling
Week 09 Connection formulas
Week 10 Review of Chapters 6, 7, and 8
Week 10 Midterm test
Week 11 Two-Level Systems
Week 12 Emission and absorption of Radiation
3
Week 12 Spontaneous Emission
Week 13 Adiabatic Theorem
Week 14 Berry's Phase
Week 14 Scattering - Introduction
Week 15 Partial Wave Analysis
Week 16 Phase Shifts
Week 16 Born Approximation
# The last topic is adjustable according to the teaching process.
18.
教材及其它参考资料 Textbook and Supplementary Readings
(1) Introduction to quantum mechanicsD. J. Griffiths, 机械工业出版社
(2) 量子力学卷 1,曾谨言,科学出版社
(3) Quantum Mechanics, Landau and Lifshitz, 世界图书出版社
(4) Modern quantum mechanics, J.J.Sakurai and J. Napolitano, 世界图书出版社
课程评估 ASSESSMENT
19.
评估形式
Type of
Assessment
评估时间
Time
占考试总成绩百分比
% of final
score
违纪处罚
Penalty
备注
Notes
出勤 Attendance
课堂表现
Class
Performance
小测验
Quiz
10%
课程项目 Projects
平时作业
Assignments
20%
期中考试
Mid-Term Test
35%
期末考试
Final Exam
35%
期末报告
Final
Presentation
4
其它(可根据需
改写以上评估方
式)
Others (The
above may be
modified as
necessary)
20.
记分方式 GRADING SYSTEM
A. 十三级等级制 Letter Grading
B. 二级记分制(通/不通过) Pass/Fail Grading
课程审批 REVIEW AND APPROVAL
21.
本课程设置已经过以下责任人/员会审议通过
This Course has been approved by the following person or committee of authority
物理系教学指导委员会
Education Instruction Committee of Physics department