Observation of hidden atomic order at the interface between Fe and topological insulator Bi2Te3

Jaime Sanchez-Barriga, Ilya I. Ogorodnikov, Mikhail V. Kuznetsov, Andrey A. Volykhov, Fumihiko Matsui, Carolien Callaert, Joke Hadermann, Nikolay I. Verbitskiy, Roland J. Koch, Andrei Varykhalov, Oliver Rader, Lada V. Yashina (Corresponding author)

Publications: Contribution to journalArticlePeer Reviewed

Abstract

To realize spintronic devices based on topological insulators (TIs), well-defined interfaces between magnetic metals and TIs are required. Here, we characterize atomically precisely the interface between the 3d transition metal Fe and the TI Bi 2Te 3 at different stages of its formation. Using photoelectron diffraction and holography, we show that after deposition of up to 3 monolayers Fe on Bi 2Te 3 at room temperature, the Fe atoms are ordered at the interface despite the surface disorder revealed by our scanning-tunneling microscopy images. We find that Fe occupies two different sites: a hollow adatom deeply relaxed into the Bi 2Te 3 quintuple layers and an interstitial atom between the third (Te) and fourth (Bi) atomic layers. For both sites, our core-level photoemission spectra and density-functional theory calculations demonstrate simultaneous chemical bonding of Fe to both Te and Bi atoms. We further show that upon deposition of Fe up to a thickness of 20 nm, the Fe atoms penetrate deeper into the bulk forming a 2-5 nm interface layer containing FeTe. In addition, excessive Bi is pushed down into the bulk of Bi 2Te 3 leading to the formation of septuple layers of Bi 3Te 4 within a distance of ∼25 nm from the interface. Controlling the magnetic properties of the complex interface structures revealed by our work will be of critical importance when optimizing the efficiency of spin injection in TI-based devices.

Original languageEnglish
Pages (from-to)30520-30532
Number of pages13
JournalPhysical Chemistry Chemical Physics
Volume19
Issue number45
DOIs
Publication statusPublished - 7 Dec 2017

Austrian Fields of Science 2012

  • 104006 Solid state chemistry
  • 103018 Materials physics
  • 103009 Solid state physics
  • 103020 Surface physics

Keywords

  • INITIO MOLECULAR-DYNAMICS
  • AB-INITIO
  • TRANSPORT
  • SURFACE
  • DIFFRACTION
  • HOLOGRAPHY
  • TRANSITION
  • MONOLAYER
  • ELECTRONS

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