Abstract
While two-dimensional (2D) topological insulators (TI’s) initiated the field of topological materials, only very few materials were discovered to date and the direct access to their quantum spin Hall edge states has been challenging due to material issues. Here, we introduce a new 2D TI material, Sb few layer films. Electronic structures of ultrathin Sb islands grown on Bi2Te2Se are investigated by scanning tunneling microscopy. The maps of local density of states clearly identify robust edge electronic states over the thickness of three bilayers in clear contrast to thinner islands. This indicates that topological edge states emerge through a 2D topological phase transition predicted between three and four bilayer films in recent theory. The non-trivial phase transition and edge states are confirmed for epitaxial films by extensive density-functional-theory calculations. This work provides an important material platform to exploit microscopic aspects of the quantum spin Hall phase and its quantum phase transition.
Highlights
While two-dimensional (2D) topological insulators (TI’s) initiated the field of topological materials, only very few materials were discovered to date and the direct access to their quantum spin Hall edge states has been challenging due to material issues
The quantum spin Hall (QSH) edge state is claimed to be directly accessible in nanometer scale for Bi single BL films[25,26]
The absence of the edge state in thinner films corroborates the relationship of the edge state with the 2D topological phase transition
Summary
While two-dimensional (2D) topological insulators (TI’s) initiated the field of topological materials, only very few materials were discovered to date and the direct access to their quantum spin Hall edge states has been challenging due to material issues. Scanning tunneling microscopy/spectroscopy (STM/STS) studies[23,24,25,26,27,28,29] claimed the truly microscopic and direct observation of a nanometer scale TES of a 2D TI for a Bi single bilayer (BL) film in which the QSH phase was predicted earlier[30,31] These Bi single layer films were realized on substrates with strong interactions, which leaves large ambiguity in the topological nature of their edge states[26,31,32,33,34,35,36]. A thin film based 2D TI with a well resolved TES is established
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