The topological soliton in Peierls semimetal Sb
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Chekmazov, S.V. and Ksenz, A.S. and Ionov, A.M. and Mazilkin, A.A. and Smirnov, A.A. and Pershina, E.A. and Ryzhkin, I.A. and Vilkov, O.Y. and Walls, B. and Zhussupbekov, K. and Shvets, I.V. and Bozhko, S.I., The topological soliton in Peierls semimetal Sb, Scientific Reports, 14, 1, 2024
Abstract
Sb is a three-dimensional Peierls insulator. The Peierls instability gives rise to doubling of the translational period along the [111] direction and alternating van der Waals and covalent bonding between (111) atomic planes. At the (111) surface of Sb, the Peierls condition is violated, which in theory can give rise to properties differing from the bulk. The atomic and electronic structure of the (111) surface of Sb have been simulated by density functional theory calculations. We have considered the two possible (111) surfaces, containing van der Waals dangling bonds or containing covalent dangling bonds. In the models, the surfaces are infinite and the structure is defect free. Structural optimization of the model containing covalent dangling bonds results in strong deformation, which is well described by a topological soliton within the Su–Schrieffer–Heeger model centered about 25 Å below the surface. The electronic states associated with the soliton see an increase in the density of states (DOS) at the Fermi level by around an order of magnitude at the soliton center. Scanning tunneling microscopy and spectroscopy (STM/STS) measurements reveal two distinct surface regions, indicating that there are different surface regions cleaving van der Waals and covalent bonds. The DFT is in good agreement with the STM/STS experiments
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Sponsor: Irish Research Council (IRC)
Grant Number: GOIPD/2022/774
Author's Homepage: http://people.tcd.ie/ivchvets
Type of material: Journal Article

