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Course Information
Course Unit Title : Quantum Electrodynamics
Course Unit Code : 01FEN5165
Type of Course Unit : Optional
Level of Course Unit : Second Cycle
Year of Study : Preb
Semester : 255.Semester
Number of ECTS Credits Allocated : 6,00
Name of Lecturer(s) : ---
Course Assistants :
Learning Outcomes of The Course Unit : Basic knowledge of some topics in quantum electrodynamics such as propagators, gauge symmetry, Lagrangian formulation, Feynman rules and application to some process in quantum electrodynamics.
Mode of Delivery : Face-To-Face
Prerequisities and Co-requisities Courses : Unavailable
Recommended Optional Programme Components : Unavailable
Course Contents : 1: Review on some principals in Relativity and Quantum Mechanics-Natural units- Relativistic notation

2: Lagrangian for Maxwell?s Equations- Gauge Symmetry

3: Quantaization of electromagnetic fields part I

4: Quantaization of electromagnetic fields part II Week

5: Klein Gordon Field

6: Dirac Field

7: Photon coupling to matter.

8: The Scattering matrix and Wick?s theorem

9: Scalar, Fermion and Photon Feynman propagators

10: Feynman diagrams

11: Cross sections and decay rates

12: Electron Muon scattering part I

13: Electron Muon scattering part II

14: General overview
Languages of Instruction : -English
Course Goals : Basic knowledge of some topics in quantum electrodynamics such as propagators, gauge symmetry, Lagrangian formulation, Feynman rules and application to some process in quantum electrodynamics.
Course Aims : Basic knowledge of some topics in quantum electrodynamics such as propagators, gauge symmetry, Lagrangian formulation, Feynman rules and application to some process in quantum electrodynamics.
WorkPlacement   Seminer Room, Department of Physics.
Recommended or Required Reading
Textbook : Lecturer's own lecture notes.
Additional Resources : F. Halzen and A.D. Martin, Quarks and leptons: an introductory course in modern particle physics, John Wiley and Sons
Material Sharing
Documents :
Assignments :
Exams :
Additional Material :
Planned Learning Activities and Teaching Methods
Lectures, Practical Courses, Presentation, Seminar, Project, Laboratory Applications (if necessary)
ECTS / Table Of Workload (Number of ECTS credits allocated)
Student workload surveys utilized to determine ECTS credits.
Activity :
Number Duration Total  
Course Duration (Excluding Exam Week) :
14 3 42  
Time Of Studying Out Of Class :
0 0 0  
Homeworks :
5 0 0  
Presentation :
1 0 0  
Project :
0 0 0  
Lab Study :
0 0 0  
Field Study :
0 0 0  
Visas :
1 0 0  
Finals :
0 0 0  
Workload Hour (30) :
30  
Total Work Charge / Hour :
0  
Course's ECTS Credit :
0      
Assessment Methods and Criteria
Studies During Halfterm :
Number Co-Effient
Visa :
1 50
Quiz :
0 0
Homework :
5 35
Attendance :
0 0
Application :
0 0
Lab :
0 0
Project :
0 0
Workshop :
0 0
Seminary :
1 15
Field study :
0 0
   
TOTAL :
100
The ratio of the term to success :
60
The ratio of final to success :
40
TOTAL :
100
Weekly Detailed Course Content
Week Topics  
1 Review on some principals in Relativity and Quantum Mechanics-Natural units- Relativistic notation
 
2 Lagrangian for Maxwell?s Equations- Gauge Symmetry
 
3 Quantaization of electromagnetic fields part I
 
4 Quantaization of electromagnetic fields part II
 
5 Klein Gordon Field
 
6 Dirac Field
 
7 Photon coupling to matter.
 
8 The Scattering matrix and Wick?s theorem
 
9 Scalar, Fermion and Photon Feynman propagators
 
10 Feynman diagrams
 
11 Cross sections and decay rates
 
12 Electron Muon scattering part I
 
13 Electron Muon scattering part II
 
14 General overview
 
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