Record surface state mobility and quantum Hall effect in topological insulator thin films via interface engineering

Nikesh Koirala; Matthew Brahlek; Maryam Salehi; Liang Wu; Jixia Dai; Justin Waugh; Thomas Nummy; Myung-Geun Han; Jisoo Moon; Yimei Zhu; Daniel Dessau; Weida Wu; N. Peter Armitage; Seongshik Oh

Record surface state mobility and quantum Hall effect in topological insulator thin films via interface engineering

ORAL

Abstract

Thin films of topological insulators (TIs) with conduction dominated by high mobility topological surface state (TSS) channel have been difficult to achieve due to increased material defects, thus making it difficult to probe TIs in quantum regime. Here by utilizing a structurally matched buffer layer based on In$_{2}$Se$_{3}$, we have achieved Bi$_{2}$Se$_{3}$ films with low defect density resulting in `order of magnitude' improvement in mobilities and carrier densities. This has led to TSS dominated transport and first observation of quantum Hall effect in Bi$_{2}$Se$_{3}$.

March 18, 2016, 9:12 AM – March 18, 2016, 9:24 AM

Authors

Nikesh Koirala
- Rutgers U.
- Rutgers University
- Department of Physics \& Astronomy, Rutgers University
Matthew Brahlek
- Rutgers U.
Maryam Salehi
- Rutgers U.
Liang Wu
- JHU
Jixia Dai
- Rutgers Univ
Justin Waugh
- U. of Colorado
Thomas Nummy
- U. of Colorado
Myung-Geun Han
- BNL
Jisoo Moon
- Rutgers U.
Yimei Zhu
- BNL
Daniel Dessau
- U. of Colorado
Weida Wu
- Rutgers U.
N. Peter Armitage
- JHU
Seongshik Oh
- Rutgers U.