Introduction to fundamentals of Accelerator Physics involving classical mechanics, electrodynamics and special relativity; Overview of linear accelerators, storage rings for the generation of light, spallation sources and colliders; Description of radio frequency systems, normal conducting and superconducting magnets, cryogenic systems, vacuum systems, and powering systems; Physics of particle beams: longitudinal and transverse beam dynamics, synchrotron radiation, non-linear beam physics, storage ring lattice design, computational methods in beam physics; Introduction to applications using Accelerator Technology in the field of nuclear and particle physics, materials science, medical applications and biology; New accelerator technologies: research on novel acceleration concepts using powerful lasers in plasmas.