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Molecular beam epitaxy growth and structure of self-assembled Bi2Se3/Bi2MnSe4 multilayer heterostructures

by Man Yu, Kin , Pookpanratana, Sujitra J , Rouvimov, Sergei , Dong, Si-Ning , Seiler, David G , Richter, Curt A , Liu, Xinyu , Furdyna, Jacek K , Chowdhury, Sugata , Orlova, Tatyana A , Dobrowolska, Margaret , Li, Xiang , Hagmann, Joseph A , Bolin, Trudy B , Segre, Carlo U

in band structure / Bismuth / Composition / Electronic properties / Electronic structure / Electrons / Epitaxial growth / heterostructure / Heterostructures / magnetism / Molecular beam epitaxy / Molecular structure / Multilayers / Physics / quantum matter / Selenium / Self-assembled multilayers / Self-assembly / Thin films / topological insulator / Topological insulators

2017

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Molecular beam epitaxy growth and structure of self-assembled Bi2Se3/Bi2MnSe4 multilayer heterostructures

2017

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Molecular beam epitaxy growth and structure of self-assembled Bi2Se3/Bi2MnSe4 multilayer heterostructures

2017

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Journal Article

Molecular beam epitaxy growth and structure of self-assembled Bi2Se3/Bi2MnSe4 multilayer heterostructures

Man Yu, Kin,

Pookpanratana, Sujitra J,

Rouvimov, Sergei,

Dong, Si-Ning,

Seiler, David G,

Richter, Curt A,

Liu, Xinyu,

Furdyna, Jacek K,

Chowdhury, Sugata,

Orlova, Tatyana A,

Dobrowolska, Margaret,

Li, Xiang,

Hagmann, Joseph A,

Bolin, Trudy B,

Segre, Carlo U

2017

Overview

We demonstrate that the introduction of an elemental beam of Mn during the molecular beam epitaxial growth of Bi2Se3 results in the formation of layers of Bi2MnSe4 that intersperse between layers of pure Bi2Se3. This study revises the assumption held by many who study magnetic topological insulators (TIs) that Mn incorporates randomly at Bi-substitutional sites during epitaxial growth of Mn:Bi2Se3. Here, we report the formation of thin film magnetic TI Bi2MnSe4 with stoichiometric composition that grows in a self-assembled multilayer heterostructure with layers of Bi2Se3, where the number of Bi2Se3 layers separating the single Bi2MnSe4 layers is approximately defined by the relative arrival rate of Mn ions to Bi and Se ions during growth, and we present its compositional, structural, and electronic properties. We support a model for the epitaxial growth of Bi2MnSe4 in a near-periodic self-assembled layered heterostructure with Bi2Se3 with corresponding theoretical calculations of the energetics of this material and those of similar compositions. Computationally derived electronic structure of these heterostructures demonstrates the existence of topologically nontrivial surface states at sufficient thickness.

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Publisher

IOP Publishing

Subject

band structure

/ Bismuth

/ Composition

/ Electronic properties

/ Electronic structure

/ Electrons

/ Epitaxial growth