In this one-week course, Tomoki Ozawa will discuss basics of topological phases of matter, such as the quantum Hall effect and topological insulators. Topological phases of matter is a growing field of research in various fields of condensed matter physics, and a goal of this course is to understand how the idea of topological phases is applied, in particular, in photonic systems. The plan is to give the first four lectures on a blackboard, and final lecture with a computer presentation. Only a basic knowledge of solid-state physics, such as the Bloch theorem and band structure, is assumed.
The tentative list of topics which will most likely be covered in the five lectures:
1. Introduction to topological concepts (Berry phase, Berry connection, Berry curvature, and Chern number)
2. Integer quantum Hall effect (TKNN formula, Harper-Hofstadter model, bulk-boundary correspondence)
3. Quantum spin Hall insulators (Haldane model, Time-reversal symmetry, Kane-Mele model)
4. Classification of topological phases (ten-fold way, Su-Shrieffer-Heeger model)
5. Topological photonics
Schedule:
| Date | Time slot | Location |
|---|---|---|
| 06.06.2017 | 17:00 - 19:00 | Freihaus, Seminar room DB "gelb" 03 |
| 07.06.2017 | 17:00 - 19:00 | Freihaus, Seminar room DB "gelb" 04 |
| 08.06.2017 | 10:00 - 12:00 | Freihaus, Seminar room DB "grun" 05 |
| 09.06.2017 | 17:00 - 19:00 | Freihaus, Seminar room DB "gelb" 03 |
| 12.06.2017 | 10:00 - 12:00 | Freihaus, Seminar room DB "grun" 05 |
