Evidence of a topological edge state in a Rashba compound
ORAL
Abstract
The presence of a gapless edge state within a bulk energy gap, namely the bulk-boundary correspondence, is a hallmark of topology. Using scanning tunneling microscopy, we uncover such an edge state in a Rashba compound containing a Rashba-split surface state. In an atomically resolved surface, we observe a small gap near the Fermi level. On the other hand, a monolayer atomic step edge features an in-gap, gapless edge state. We argue the topological nature of the edge state based on two experimental findings:
(i) an energy gap opens when applying a magnetic field, pointing to a time-reversal symmetry protected nature of the edge state.
(ii) the edge spectra show intriguing differences depending on the height of the step edge, consistent with the hybridization of the edge state.
(i) an energy gap opens when applying a magnetic field, pointing to a time-reversal symmetry protected nature of the edge state.
(ii) the edge spectra show intriguing differences depending on the height of the step edge, consistent with the hybridization of the edge state.
–
Publication: Manuscript in preparation
Presenters
-
Shafayat Hossain
Princeton University
Authors
-
Shafayat Hossain
Princeton University
-
Yuxiao Jiang
Princeton University
-
Qi Zhang
Princeton University
-
Maksim Litskevich
Princeton University
-
Zi-Jia Cheng
Princeton University
-
Zahir Muhammad
Beihang University
-
Frank Schindler
Princeton University
-
Tyler A Cochran
Princeton University
-
Xian Yang
Princeton University
-
Jiaxin Yin
Princeton University
-
Titus Neupert
Univ of Zurich
-
Weisheng ZHAO
Beihang University, BeiHang University
-
M. Zahid M Hasan
Princeton University