Fermi Surface Chirality Induced in a TaSe Monosheet Formed by a Ta/BiSe Interface Reaction

Overview

Journal Nat Commun

Specialty Biology

Date 2022 May 5

PMID 35513364

Authors

Andrey Polyakov

Katayoon Mohseni

Roberto Felici

Christian Tusche

Ying-Jun Chen

Vitaly Feyer

Jochen Geck

Tobias Ritschel

Arthur Ernst

Juan Rubio-Zuazo

German R Castro

Holger L Meyerheim

Stuart S P Parkin

Affiliations

Soon will be listed here.

Abstract

Spin-momentum locking in topological insulators and materials with Rashba-type interactions is an extremely attractive feature for novel spintronic devices and is therefore under intense investigation. Significant efforts are underway to identify new material systems with spin-momentum locking, but also to create heterostructures with new spintronic functionalities. In the present study we address both subjects and investigate a van der Waals-type heterostructure consisting of the topological insulator BiSe and a single Se-Ta-Se triple-layer (TL) of H-type TaSe grown by a method which exploits an interface reaction between the adsorbed metal and selenium. We then show, using surface x-ray diffraction, that the symmetry of the TaSe-like TL is reduced from D to C resulting from a vertical atomic shift of the tantalum atom. Spin- and momentum-resolved photoemission indicates that, owing to the symmetry lowering, the states at the Fermi surface acquire an in-plane spin component forming a surface contour with a helical Rashba-like spin texture, which is coupled to the Dirac cone of the substrate. Our approach provides a route to realize chiral two-dimensional electron systems via interface engineering in van der Waals epitaxy that do not exist in the corresponding bulk materials.

Citing Articles

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Saha R, Meyerheim H, Gobel B, Hazra B, Deniz H, Mohseni K Nat Commun. 2022; 13(1):3965.

PMID: 35803924 PMC: 9270380. DOI: 10.1038/s41467-022-31319-y.

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