Dr. Lin Chen
- Phone
- +49 89 289-12406
- Room
- 2035
- lin0.chen@tum.de
- Links
-
Page in TUMonline
- Group
- Experimental Physics of Functional Spin Systems
Courses and Dates
| Title and Module Assignment | |||
|---|---|---|---|
| Art | SWS | Lecturer(s) | Dates |
|
Magnetism and Magnetic Materials eLearning course Assigned to modules: |
|||
| VO | 4 |
Back, C.
Assisstants: Chen, L. |
Tue, 14:00–16:00, PH 2024 Thu, 16:00–18:00, PH 2024 |
|
Exercise to Magnetism and Magnetic Materials Assigned to modules: |
|||
| UE | 2 |
Chen, L.
Responsible/Coordination: Back, C. |
|
|
Special Topics in Magneto-Transport Assigned to modules: |
|||
| SE | 2 |
Back, C.
Assisstants: Chen, L. |
|
Offered Bachelor’s or Master’s Theses Topics
- Kontrolle der Spin-Orbit-Torques in ultradünnen Fe/Pt Bi-Lagen durch elektrische Felder
- Spin-Orbit-Torques (SOTs) which can be used to manipulate the magnetization of thin ferromagnetic layers can be generated at interfaces to heavy metals such as Platinum. In this thesis we will attempt to modify the strength and direction of SOTs in thin bi-layers of Pt and Fe.
- suitable as
- Bachelor’s Thesis Physics
- Supervisor: Christian Back
- Untersuchung des "Flachbandmagnetismus" in dem magnetischen Weyl-Halbmetall CoSnS
- A recent scanning tunneling microscopy experiment (Nature Physics 15, 443 (2019))shows the existence of an orbital magnetic moment in the magnetic Weyl semimetal CoSnS. Such orbital magnetism originates from the kinetically frustrated Kagome flat band in this (and other) material and is purely a quantum mechanical effect. We expect that this orbital magnetic moment can be detected by the electron spin resonance technique, and the experimental results will be compared with theoretical calculations.
- suitable as
- Bachelor’s Thesis Physics
- Supervisor: Christian Back