Introduction to Accelerator Physics, 16 September 2018 - 29 September 2018, Constanta, Romania

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School administrator(s):

Delphine Rivoiron and Floriane Forrat

This Introductory CAS Course represents the core teaching of all CAS courses and also represents the ideal opportunity to be introduced into the field of particle accelerators. This course will be of interest to staff and students from laboratories and universities, as well as companies manufacturing accelerator equipment. The course will focus on various aspects of beam dynamics and will provide an introduction to the underlying accelerator systems. Key topics will be consolidated through a series of discussion sessions and tutorials, while topical seminars will complete the program.

Due to the large number of students during the past issues of this course we have decided to hold this course now every year in autumn instead of the two-yearly rhythm before. The number of students will be limited to about 80 students based on a first come first served principle.

Attachment Size
Opening (Hermann Schmickler, CERN) 1.43 MB
Accelerator Applications (Suzie Sheehy, University of Oxford) 21.27 MB
Electromagnetic Theory I, II (Werner Herr, CERN) 1.04 MB
Kinematics of Particle Beams - Relativity (Massimo Ferrario, INFN) 1.63 MB
Statistical Description of Particle Beams (Massimo Ferrario, INFN) 3.55 MB
Transverse Linear Beam Dynamics I, II, III, IV, V (Wolfgang Hillert, DESY) 17.51 MB
Particle Motion in Hamiltonian Formalism I, II (Suzie Sheehy, University of Oxford) 6.82 MB
Linear Accelerators I, II (David Alesini, INFN) 6.19 MB
Longitudinal Beam Dynamics in Circular Machines I, II (Frank Tecker, CERN) 5.54 MB
Injection and Extraction (Matthew Alexander Fraser, CERN) 9.35 MB
Luminosity and Colliders (Werner Herr, CERN) 4.93 MB
FFA's (Suzie Sheehy, University of Oxford and STFC/ASTeC/RAL) 5.4 MB
Kickers, Septa and Beam Transfer (Matthew Alexander Fraser, CERN) 32.85 MB
Collective Effects I (Kevin Shing Bruce Li, CERN) 16.05 MB
Collective Effects II (Kevin Shing Bruce Li, CERN) 68.09 MB
Collective Effects III (Kevin Shing Bruce Li, CERN) 18.31 MB
Collective Effects IV (Kevin Shing Bruce Li, CERN) 76.03 MB
Future Acceleration Concepts (Andrea Mostacci, Sapienza University of Rome e INFN-Roma I (IT)) 9.36 MB
Warm Magnets / Power Converters (Gijs De Rijk, CERN) 6.43 MB
Superconducting Magnets (Gijs De Rijk, CERN) 10.81 MB
Linear Imperfections / Corrections (Volker Ziemann, Uppsala University) 2.57 MB
Electron Beam Dynamics I (Lenny Rivkin, PSI) 3.17 MB
Electron Beam Dynamics II (Lenny Rivkin, PSI) 1.46 MB
A first taste of Non - Linear Beam Dynamics I (Yannis Papaphilippou, CERN) 526.29 KB
A first taste of Non - Linear Beam Dynamics II (Yannis Papaphilippou, CERN) 1.33 MB
Cyclotrons I (Mike Seidel, PSI) 4.73 MB
Cyclotrons II (Mike Seidel, PSI) 4.24 MB
Transverse Feedbacks (Hermann Schmickler, CERN) 3.61 MB
Designing a synchrotron - a real life example (Yannis Papaphilippou, CERN) 63.91 MB
Sources (Dan Faircloth, STFC) 7.46 MB
RF systems I, II (Heiko Damerau, CERN) 6.34 MB
Ion acceleration via ultra-intense laser (Doria Domenico, ELI) 34.59 MB
Beam Instrumentation (Peter Forck, GSI) 8.67 MB
Beam Diagnostics (Peter Forck, GSI) 8.23 MB
A critical view on cultural heritage conservation by ionizing radiation (Corneliu Ponta, ELI) 34.59 MB
Secondary beams and targets (Klaus Knie, GSI) 6.01 MB
Machine & People Protection Issues (Peter Forck, GSI) 7.66 MB
Non-Linear longitudinal Beam Dymanics (Heiko Damerau, CERN) 4.62 MB


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