## 課程概述 Course Description

1 Historical Introduction to the Elementary Particles 2 Relativity Kinematics I 3 Relativity Kinematics II 4 Symmetries, Groups, Conservation Laws Angular Momentum, Addition of Angular Momenta, Spin-1/2 5 Flavor symmetries, Discrete Symmetries, Parity, Charge Conjugation 6 CP, Neutral Kaons, CP Violation, Time reversal and the TCP Theorem 7 Mid-term exam 8 Bound States, Hydrogen, Fine Structure, The Lamb Shift, Hyperfine Splitting 9 Positronium, Quarkonium, Charmonium, Bottomonium 10 Light Quark Mesons, Baryons, Baryon Wave Fubctions, Magnetic Moments, Masses 11 The Feynman Calculus: Decays and Scattering, Decay Rates, Cross Sections 12 The Golden Rule, Golden Rule for Decays, Two-particle Decays, Golden Rule for Scattering 13 Mid-term e 14 Two-Body Scattering in the SM frame, Feynman Rules for a Toy Theory, Lifetime of the A particle 15 Quantum Electrodynamics: The Dirac Equation, Solutions to the Dirac Equation 16 Bilinear Covariances, The Photon, The Feynman Rules for QED, examples 17 Casimir's Trick, Cross Sections and Lifetimes, Renormalization 18 Final exam

## 課程學習目標 Course Objectives

• 理論高能物質 (Theoretical High Energy Physics)
• 實驗高能物理 (Experimental High Energy Physics)
• 最新高能物理結果 (The Latest Results on High Energy Physics)
• ## 課程進度 Course Outline

週次 Week進度說明 Progress Description
1Introduction / History
2Elementary particles and forces
3Quantum Electrodynamics
4Feynman Rules
5Quantum Chromodynamics
6Gauge Theories
7Experiments
8Latest results
9以上為課題目標，並非每週進度
10以上為課題目標，並非每週進度
11以上為課題目標，並非每週進度
12以上為課題目標，並非每週進度
13以上為課題目標，並非每週進度
14以上為課題目標，並非每週進度
15以上為課題目標，並非每週進度
16以上為課題目標，並非每週進度
17以上為課題目標，並非每週進度
18以上為課題目標，並非每週進度
以上每週進度教師可依上課情況做適度調整。The schedule may be subject to change.

## 有關課程其他調查 Other Surveys of Courses

1.本課程是否規劃業界教師參與教學或演講? 否
Is there any industry specialist invited in this course? How many times? No
2.本課程是否規劃含校外實習(並非參訪)? 否
Are there any internships involved in the course? How many hours? No