Evidence of One-dimensional Edge States in Quasi-one-dimensional Topological Insulators Bismuth halogenides

Zheneng Zhang; Jiayin Wang; Chun Ning Lau; Wenhao Liu; Chiho Yoon; Fan Zhang; Bing Lv; Ming Yi; Robert J Birgeneau; Yichen Zhang; Ji Seop Oh; Nikhil Uday Dhale

Evidence of One-dimensional Edge States in Quasi-one-dimensional Topological Insulators Bismuth halogenides

ORAL

Abstract

Bi4Br4 is predicted to host gapless monolayer step edge and a large bulk gap (~210meV) which indicates that it is a promising quantum spin Hall insulator up to room temperature. Due to the weak coupling between layers, even in multilayer Bi4Br4, the quantum spin hall edge can still be preserved. To date, the study on transport properties of Bi4Br4 is still rare. In this talk, I will discuss our recent work on transport study of multilayer Bi4Br4 devices and preliminary evidence that indicates the presence of one-dimensional edge states.

^* This work is supported by DMREF collaborative research grant: Establishing the platform of quasi-one-dimensional topological insulators with emergent functionalities.

March 6, 2024, 4:48 PM – March 6, 2024, 5:00 PM

Presenters

Zheneng Zhang

the Ohio State University

Authors

Zheneng Zhang

the Ohio State University
Jiayin Wang

Ohio State University
Chun Ning Lau

Ohio State University, Ohio State Univ - Columbus
Wenhao Liu

University of Texas at Dallas
Chiho Yoon

University of Texas at Dallas, The University of Texas at Dallas
Fan Zhang

The University of Texas at Dallas
Bing Lv

The University of Texas at Dallas, TCSUH and Department of Chemistry, University of Houston.
Ming Yi

Rice University
Robert J Birgeneau

University of California, Berkeley
Yichen Zhang

Rice University
Ji Seop Oh

University of California Berkeley
Nikhil Uday Dhale

The University of Texas at Dallas, University of Texas at Dallas