FYSS5410 Superconductivity (9 cr)
Description
Content
Phenomenology of superconductivity, microscopic BCS theory and its predictions, especially on tunnel junctions. Type II superconductors and their electrodynamics. Josephson junctions, SQUIDs. Applications of superconductivity in large scale and electronics. First half of the course has lectures and demos, second half is a seminar part where students give seminars on topics of applied superconductivity.
Completion methods
Exam and seminar presentation, homework problems.
Assessment details
Students are expected to have at least 50 % of the course points to pass the course. To assess the students’ learning, teacher can use a combination of different assessment methods and the course grade is divided into component parts, each part worth some percentage of the total grade (e.g. assignments 30 %, examination 50 %, seminar attendance 20 % of the grade).
Learning outcomes
Description of prerequisites
Literature
- Michael Tinkham: Introduction to Superconductivity, 2nd Ed Dover edition 2004; ISBN: 978-0486435039
- Theodore Van Duzer and Charles W. Turner: Superconductive Devices and Circuits, 2nd Ed, Prentice Hall 1999; ISBN: 978-0132627429