# Accelerator Physics

**Source**: https://www.su.se/english/education/course-catalogue/fk/fk7055?semester=VT2026&eventcode=47091
**Parent**: https://www.su.se/english/education/course-catalogue?q=&internationalStudents=%5B%22true%22%5D&forcedReasonCode=%5B%220%22%5D

Accelerators are important tools in many areas of basic physics research, but also in industrial and medical applications. In this course, you learn about the function and use of accelerators in a manner where your prior knowledge from your previous physics courses is put into use.

One laboratory exercise in the accelerator physics course is performed at the ion storage ring DESIREE at Albanova.

In this course you learn about the technical components of accelerators and their physical working principles. Such components include electromagnets, radio frequency systems, vacuum equipment, ion sources and beam diagnostic tools. Charged particle beam dynamics (transversally and longitudinally) is discussed. You get an overview of circular and linear accelerators and their applications examplified by colliders, cyclotrons, synchrotron light sources, free electron lasers, ion traps and storage rings.

Specific accelerator facilities with a Swedish connection are discussed, such as MAX I-IV, ESS, XFEL, FAIR, LHC och DESIREE. A particular discussion of cancer therapy facilities such as the Skandion Clinic in Uppsala is also included.

## [Course structure](#svid10_142dc5821901009a5b52688b)

This is a second cycle course given at half speed during daytime. This course can also be taken as a third cycle course. The course is given in English.

### Teaching Format

Lectures twice a week introduce you to the different subjects. In home assignments you connect the material you learn to an existing accelerator of your choice. At the end of the course all students give a presentation about their accelerator. In laboratory exercises you get introduced to accelerator components (one at the ion storage ring DESIREE) and in a computational exercise you learn how simulate charged particle beams.

### Assessment

The examination consists of homework problems, written reports, oral presentation and oral exam.

#### Examiner

Henning Schmidt

## [Schedule](#svid10_142dc5821901009a5b5268da)

The schedule will be available no later than one month before the start of the course.
We do not recommend print-outs as changes can occur. At the start of the course,
your department will advise where you can find your schedule during the course.

- [Schedule FK7055 Spring semester 2026 Day-time 50%](https://cloud.timeedit.net/su/web/stud1/s.html?sid=3&type=courseevent&h=t&object=cevt_47091_VT2026&startdate=20251220&enddate=20260905&l=en&h2=2 "Link to schedule - opens in new window")

## [Course literature](#svid10_142dc5821901009a5b5268f0)

Note that the course literature can be changed up to two months before the start of the course.

Klaus Wille: The Physics of Particle Accelerators

## [Course reports](#svid10_142dc5821901009a5b5268f2)

Course reports are displayed for the three most recent course instances.

## [Contact](#svid10_142dc5821901009a5b52690b)

### **Course coordinator**

Fredrik Hellberg, phone: 08 5573 8133, e-mail: [fredrik.hellberg@fysik.su.se](mailto:fredrik.hellberg@fysik.su.se)

### **Academic advisor**

[studievagledare@fysik.su.se](mailto:studievagledare@fysik.su.se)

### **Student office**

[studentexp@fysik.su.se](mailto:studentexp@fysik.su.se)

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## Spring 2026 | Period 2 | Day-time, 50% | On campus | For international students

7.5 credits

Spring 2026

Period 2Day-time, 50%On campusFor international students

Beginning/EndPlease view course schedule for exact dates

week commencing

22/03/2026 - 06/06/2026

Closed for application

Information about late application[Applies only to certain courses](https://www.su.se/english/education/how-to-apply/important-dates/late-application-1.506150)

Course code: FK7055

Application code: SU-47091

Level

Master's level

Language

English

Eligibility

Admission to the course requires knowledge equivalent to passed courses (excluding introductory courses) of 45 credits in mathematics and 60 credits in physics, where the courses Quantum Mechanics, 7.5 credits (FK5020) and Electromagnetism and Waves, 7.5 credits (FK5019) should be included.
Additionally, requires knowledge equivalent to at least one of the courses Atomic and Molecular Physics, 7.5 credits (FK5023) or Nuclear and Particle Physics, Astrophysics and Cosmology, 7.5 credits (FK5024). Finally, requires knowledge equivalent to upper secondary school English B/English 6.

Selection

Higher Education Credits (up to 270).

[Syllabus - legal document](#)

Tuition fee

Applies to citizens from outside EU, EEA or Switzerland. First instalment: 17500 SEK. The complete course: 17500 SEK.

[More information on tuition fees](https://www.su.se/english/education/how-to-apply/costs-fees-and-scholarships)

Subject

[Physics](https://www.su.se/english/education/course-catalogue/education-subjects/science-and-mathematics/physics)

Area of interest

[Science and Mathematics](https://www.su.se/english/education/course-catalogue/education-subjects/science-and-mathematics)

Department responsible for education

[Department of Physics](http://www.fysik.su.se/)

Find more courses and programmes

Know what you want to study?

[Find your study programme](https://www.su.se/english/education/course-catalogue)

What can I study?

[Explore our subjects](https://www.su.se/english/education/course-catalogue/education-subjects)