Introduction to basic accelerator physics including classical mechanics, electrodynamics and special relativity;
Description of linear accelerators, synchrotrons, storage rings for generating electromagnetic radiation, and Spallation sources and colliders;
Overview of microwave systems, resistive and superconducting magnets, normal conducting and superconducting RF cavities, cryogenic equipment, vacuum systems, power supplies, beam diagnostics;
Particle Beam Physics: Longitudinal and transverse beam dynamics, synchrotron radiation, nonlinear radiation physics, the magnetic system of storage rings, calculation methods for radiation physics;
Use of accelerator technology in nuclear and particle physics, materials science, medicine and biology;
Overview of new accelerator technologies based on powerful lasers in plasma.
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