The Aim of The Lesson: It is aimed to obtain and interpret the behavior of the beam along the beam path through physical equations and modeling.
Course Content: Single particle dynamics, matrix formulation in linear and nonlinear beam dynamics, beam dynamics in terms of betatron functions, dispersive systems, longitudinal beam dynamics, equations of motion in longitudinal phase space, longitudinal phase space parameters, higher order phase focusing, periodic lattices, transverse and longitudinal beam dynamics. .
| Week | Subject-Content | Teaching Method and Technique Used |
| 1 | Introduction | Lecture, Question and Answer |
| 2 | Beams and Beam Physics | Lecture, Question and Answer |
| 3 | Charged particle motion in static fields | Lecture, Question and Answer |
| 4 | Linear transverse movement | Lecture, Question and Answer |
| 5 | Acceleration and longitudinal movement | Lecture, Question and Answer |
| 6 | Twiss Formulation | Lecture, Question and Answer |
| 7 | Change of Twiss Parameters/Midterm Exam | Lecture, Question and Answer |
| 8 | Periodic Bunch Transport | Lecture, Question and Answer |
| 9 | Knitting Patterns | Lecture, Question and Answer |
| 10 | Magneto Static Elements | Lecture, Question and Answer |
| 11 | Electromagnetic elements; waveguide | Lecture, Question and Answer |
| 12 | Electromagnetic elements; cavities | Lecture, Question and Answer |
| 13 | Radiative Elements – Photon Beam | Lecture, Question and Answer |
| 14 | Introduction to Nonlinear Beam Dynamics | Lecture, Question and Answer |
| 15 | Final | Lecture, Question and Answer |