The aim of lesson: It is aimed to provide an understanding of radiation types and their formation characterizations and behaviors.
Course Content: Charge-field interactions, conservation laws and pointing vector, Cherenkov radiation, Compton radiation, spatial and spectral characteristics of radiation, radiation sources based on accelerators, radiation generations, synchrotron radiation, free electron laser, power, coherence and brightness of radiation, bending and super-bending magnet. general characteristics and comparisons of undulator and wiggler magnet radiations.
Week | Subject – Content | Teaching Method and Technique Used |
1 | Introduction | Lecture, Question and Answer |
2 | Charge-Field Interactions | Lecture, Question and Answer |
3 | Cherenkov Radiation | Lecture, Question and Answer |
4 | Compton Radiation (Inverse Compton Scattering) | Lecture, Question and Answer |
5 | Spatial and Spectral Characteristics of Radiations | Lecture, Question and Answer |
6 | Radiation Sources Based on Accelerators | Lecture, Question and Answer |
7 | Radiation Sources Based on Accelerators/Midterm Exam | Lecture, Question and Answer |
8 | Generations of Radiations Based on Accelerators | Lecture, Question and Answer |
9 | Synchrotron Radiation | Lecture, Question and Answer |
10 | Synchrotron Radiation | Lecture, Question and Answer |
11 | Free Electron Laser | Lecture, Question and Answer |
12 | Free Electron Laser | Lecture, Question and Answer |
13 | Parameters of Accelerator-Based Irradiations | Lecture, Question and Answer |
14 | Radiative Transport Lines | Lecture, Question and Answer |
15 | Final |