About this Abstract |
Meeting |
MS&T21: Materials Science & Technology
|
Symposium
|
Advanced Characterization of Materials for Nuclear, Radiation, and Extreme Environments
|
Presentation Title |
Effect of Dilute Magnetism in a Topological Insulator |
Author(s) |
Firoza Kabir |
On-Site Speaker (Planned) |
Firoza Kabir |
Abstract Scope |
Three-dimensional topological insulator (TI) has emerged as a unique state of quantum matter and generated enormous interests in condensed matter physics. Introduction of magnetism on the surface of a TI is essential to realize the quantum anomalous Hall effect and other novel magneto-electric phenomena. Here, by using a combination of first-principles calculations, magneto-transport, and angle-resolved photoemission spectroscopy (ARPES), we study the electronic properties of gadolinium (Gd)-doped Sb2Te3. Our study shows that Gd doped Sb2Te3 is a spin-orbit-induced bulk band-gap material, whose surface is characterized by a single topological surface state. We further demonstrate that introducing diluted 4f-electron magnetism into the Sb2Te3 topological insulator system by the Gd doping, creates surface magnetism in this system. Our results provide a new platform to investigate the interactions between dilute magnetism and topology in magnetic doped topological materials. |