Theory of Superconductivity, winter semester 2017/18

Prof. Dr. Carsten Timm
carsten.timm@tu-dresden.de
Room A 101, Zellerscher Weg 17
Office hours: Tuesday 08:00-10:00 and by appointment (preferred)

This page contains information on the lecture Theory of Superconductivity and the accompanying tutorials. The course will start on Monday, October 9, at 11:10 in the lecture hall REC/B214.

General Information

The course is intended for master and doctoral students of experimental or theoretical physics with an interest in condensed matter physics. It is particularly suitable for students of the research training group GRK 1621. Ambitious bachelor students could also attend. The course counts towards credit for the "Vertiefung" for the Bachelor of Science in physics and, in in the field of theoretical physics, for the Master.
Prerequisites: Introductory quantum mechanics is required, advanced quantum mechanics ("Quantentheorie 2") is recommended since we will use the formalism of second quantization. An introduction into experimental solid state physics is also recommended. Neither solid state theory or many-particle theory are required.

The following topics will be covered:

• Basic experiments
• Review of Bose-Einstein condensation
• Electrodynamics of superconductors: London and Pippard theories
• Ginzburg-Landau theory, Anderson-Higgs mechanism
• Vortices, Kosterlitz-Thouless theory
• Origin of the electron-electron attraction
• Cooper instability and BCS theory
• Consequences of Cooper pairing: Thermodynamics, tunneling, nuclear resonance
• Josephson effects
• Bogoliubov-de Gennes equation for inhomogeneous superconductors
• Unconventional superconductivity, cuprate and pnictide superconductors
• Andreev scattering and Andreev bound states
• Topological superconductors

© C. Timm

Lecture Notes

A set of lecture notes for this course can be downloaded below. It contains a short bibliography. The lecture notes will evolve during the semester; the online version will regularly be updated. Please do not hesitate to inform me of any mistakes and confusing arguments.

Lecture notes

Tutorials

The lecture is accompanied by tutorials, which officially replace the lecture on Mondays in even-numbered weeks (the first week of teaching is week 41, i.e., odd). However, we are flexible with scheduling the tutorials. In the tutorials, questions that have remained unclear in the lecture can be discussed. Also, methods introduced in the lecture will be applied to specific problems, both in class and as homework. Solving the problems is highly recommended. Only by active application can you expect to assimilate the material and make it useful for your work.
The homework solutions will be collected and graded since credit for the course (for bachelor and master students) will be given based on these. Doctoral students only need a certificate of attendance but solving the problem is nevertheless highly recommended. The problem sets will be distributed in the tutorials.

Here is the solution to problem 3 of set 4.

There will not be a final exam for this course. Master students can of course choose it as one of the two topics for the oral exam "Vertiefung Theoretische Physik". Doctoral students can take a "Fachprüfung" on this course in replacement for the Rigorosum or be examined on it in their Rigorosum.