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Introduction to Particle Accelerators (EPFL)
Last Updated: 2026-02-05 16:14:53
Abstract
The course presents basic physics ideas underlying the workings of modern accelerators. We will examine key features and limitations of these machines as used in accelerator driven sciences like high energy physics, materials and life sciences.
Objective
By the end of the course, the student must be able to: - Design basic linear and non-linear charged particles optics - Elaborate basic ideas of physics of accelerators - Use a computer code for optics design - Optimize accelerator design for a given application - Estimate main beam parameters of a given accelerator
Content
Overview, history and fundamentals Transverse particle dynamics (linear and nonlinear) Longitudinal particle dynamics Linear accelerators Circular accelerators Acceleration and RF-technology Beam diagnostics Accelerator magnets Injection and extraction systems Synchrotron radiation
Resources
Literature
Recommended during the course
General Information
- Language
- English
- Levels
- MSC
- Frequency
- Yearly recurring
Examination
- Type
- graded semester performance
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture with exercise |
Introduction to Particle Accelerators (EPFL)
**Course at EPFL**
|
No time listed | 4 h weekly |
Offered In
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Nuclear Engineering Master (MSc Nuclear Engineering is a joint program of EPF Lausanne and ETH Zurich. The first semester takes place in Lausanne. Students therefore have to enroll at EPFL. For more information about the curriculum and courses see: )
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