4020135147 Physics and Technology of modern Particle Accelerators
Digital- & Präsenz-basierter Kurs
- classroom language
- DE
- aims
- The lecture will support the accomplishment of a master thesis / doctoral thesis in the field of accelerator physics or in a field related to the usage of accelerators.
- requirements
- Basic knowledge of electrodynamics, relativistic, classical mechanics. Some knowledge of geometric optic would be helpfull but is not mandatory.
- structure / topics / contents
- Linear and non linear beam optics and beam dynamics, linear and recirculating accelerators with normal conducting and super conducting magnets and radio frequency systems, circular accelerators, colliders (e.g. LHC), synchrotron radiation sources (e.g. BESSYII), particle sources, beam diagnostics, new trends e.g. energy recovery linacs.
Occasionally we will visit accelerators of HZB to see the hardware and for demonstrations.Within the tutorials we will partially work on case studies.
- assigned modules
-
P23.1.1
P23.1
- amount, credit points; Exam / major course assessment
- 3 SWS, 5 SP/ECTS (Arbeitsanteil im Modul für diese Lehrveranstaltung, nicht verbindlich)
There will be weekly exercises and a final oral exam.
- other
- Transparencies and chalk board calculations.
- contact
- Prof. Andreas Jankowiak, Helmholtz-Zentrum Berlin, Albert-Einstein-Straße 15, 12489 Berlin
- literature
-
K. Wille. Physik der Teilchenbeschleuniger und Synchrotronstrahlungsquellen. Teubner
K. Wille. Particle Accelerators. Oxford Press
F. Hinterberger. Physik der Teilchenbeschleuniger und Ionenoptiken. Springer
H. Wiedemann. Particle Accelerator Physics I+II. Springer