CS-803 / 2 credits

Teacher: Dutoit Bertrand

Language: English

Remark: June 6th - 10th 2022


Frequency

Only this year

Summary

The program of the School aims al providing the students with the main concepts and methodologies for developing a numerical model of superconducting devices. The students will learn numerical modelling techniques for different physical aspects of superconducting applications and have practice.

Content

Note

Mark Ainslie; Bernardo Bordini; Cristophe Geuzaine; Satoshi Awaji; Luca Bottura; Marco Breschi; Thierry Schild; Frë

Keywords

Applied Superconductivity, Numerical modelling, High magnetic field, Hybrid magnet

Resources

Bibliography

https://www.epfl.ch/labs/appliedsc/schooV

In the programs

  • Exam form: Written & Oral (session free)
  • Subject examined: Summer School on Numerical Modelling for Applied Superconductivity
  • Lecture: 28 Hour(s)
  • Exercises: 14 Hour(s)
  • Practical work: 10 Hour(s)
  • Exam form: Written & Oral (session free)
  • Subject examined: Summer School on Numerical Modelling for Applied Superconductivity
  • Lecture: 28 Hour(s)
  • Exercises: 14 Hour(s)
  • Practical work: 10 Hour(s)

Reference week