A Systematic Investigation of the Coupling between One-Dimensional Edge States of a Topological Crystalline Insulator

Abstract

The interaction of spin-polarized one-dimensional (1D) topological edge modes localized along single-atomic steps of the topological crystalline insulator Pb0.7Sn0.3Se(001) has been studied systematically by scanning tunneling spectroscopy. Our results reveal that the coupling of adjacent edge modes sets in at a steptostep distance dss < 25 nm, resulting in a characteristic splitting of a single peak at the Dirac point in tunneling spectra. Whereas the energy splitting exponentially increases with decreasing dss for single-atomic steps running almost parallel, we find no splitting for single-atomic step edges under an angle of 90o. The results are discussed in terms of overlapping wave functions with px; py orbital character.