The aim of lesson: It is aimed to understand the RF providing structures in accelerators, to understand the production, distribution and efficiency of power, and to understand the working principles of low-level RF structures in practice.
Course Content: Radio Frequency for accelerators, theory of electromagnetic fields, basic concepts of RF engineering, S parameter, Smith chart, power combiners, RF amplification methods and techniques, low level RF, signal reception techniques.
| Week | Subject – Content | Teaching Method and Technique Used |
| 1 | Introduction | Lecture, Question and Answer |
| 2 | Radio Frequency for Accelerators | Lecture, Question and Answer |
| 3 | Theory of Electromagnetic Fields | Lecture, Question and Answer |
| 4 | RF Engineering Basic Concepts | Lecture, Question and Answer |
| 5 | S Parameter | Lecture, Question and Answer |
| 6 | Smith Chart | Lecture, Question and Answer |
| 7 | Power Transmission / Midterm Exam | Lecture, Question and Answer |
| 8 | Power Combiners | Lecture, Question and Answer |
| 9 | RF Power Generation | Lecture, Question and Answer |
| 10 | RF Amplification Methods and Techniques | Lecture, Question and Answer |
| 11 | Fundamentals of RF Electronics | Lecture, Question and Answer |
| 12 | Low Level RF | Lecture, Question and Answer |
| 13 | RF Measurements | Lecture, Question and Answer |
| 14 | Signal Receiving Techniques | Lecture, Question and Answer |
| 15 | Final Exam |