The course will provide the lectures mainly for doctoral degree program students on accelerator and fusion reactor engineering, students deeply understand the detail of accelerator and fusion related technology.
Students can explain the details of accelerator and fusion engineering based on the deep understanding of this scientific field.
accelerator, nuclear fusion
✔ Specialist skills | Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
Lectures will be delivered by the lecturers in various fields in accelerator and fusion engineering
Course schedule | Required learning | |
---|---|---|
Class 1 | Neutron sources, in particukar, inertial electrostatic confinement fusion | Depending on the topic and the lecturer |
Class 2 | Muon catalyzed fusion | Depending on the topic and the lecturer |
Class 3 | Cold nuclear fusion, condensed matter nuclear reaction | Depending on the topic and the lecturer |
Class 4 | Numerical Analysis in Magnetic Confinement Fusion | Depending on the topic and the lecturer |
Class 5 | Application of accelarators | Depending on the topic and the lecturer |
Class 6 | Heavy ion beam driven inertial fusion | Depending on the topic and the lecturer |
Class 7 | History of magnetic confinement fusion reactor concept | Depending on the topic and the lecturer |
Class 8 | Presentation and discussion | 5-minute presentation and discussion |
None
Introduced by the lecturer depending on the topic
Presentation and discussion in the last class and submission of report
General fundamental knowledge of accelerator and fusion reactor engineering