學期基礎量子物理知識,作為進階理論,材料,光電,及各近代物理分支學習之基礎Semester basic quantum physics knowledge as the basis for advanced theory, materials, optoelectronics, and various branches of modern physics
※學習量子理論的基礎課程,為進入應用或較難的領域做奠基工作。
※培養學生核心能力:
1.理解與運用物理、數學知識
2.數值計算與數據分析
3.陳述、分析與解決問題
5.產業相關知識與技能
※內容主題為:
第一學期
1.The Origins of Quantum Theory
2.The Schrodinger Equations
3.One-Dimensional Examples
4.The Formalism of Quantum Mechanics
第二學期
1.Review of the Formalism of Quantum Mechanics
2.Central-Force Field Problems
3.Perturbation Theory
4.Atomic Physics (spin, Zeeman effects, identical particles)
5.Molecular Physics
6.Condensed matter physics
7.Nuclear Physics
8.Particle Physics
※Learn the basic courses of quantum theory and lay the foundation for entering applied or difficult fields.
※Develop students’ core abilities:
1. Understand and apply physics and mathematics knowledge
2. Numerical calculation and data analysis
3. Present, analyze and solve problems
5. Industry-related knowledge and skills
※The content theme is:
first semester
1.The Origins of Quantum Theory
2.The Schrodinger Equations
3.One-Dimensional Examples
4.The Formalism of Quantum Mechanics
second semester
1.Review of the Formalism of Quantum Mechanics
2.Central-Force Field Problems
3.Perturbation Theory
4.Atomic Physics (spin, Zeeman effects, identical particles)
5.Molecular Physics
6.Condensed matter physics
7.Nuclear Physics
8.Particle Physics
Textbook:
Introduction to quantum mechanics, 2nd or third edition, by David Griffith
Reference:
A Modern Introduction to Quantum Mechanics, 2nd edition, by J. S. Townsend
Quantum Physics, 3rd edition, by S. Gasiorowicz
Textbook:
Introduction to quantum mechanics, 2nd or third edition, by David Griffith
Reference:
A Modern Introduction to Quantum Mechanics, 2nd edition, by J. S. Townsend
Quantum Physics, 3rd edition, by S. Gasiorowicz
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 期中考期中考 midterm exam |
40 | |
| 期末考期末考 final exam |
40 | |
| 平時成績平時成績 usual results |
20 | 小考 作業 出席等 |
