Evolution of Mn 1- x Ge x Bi 2 Te 4 Electronic Structure under Variation of Ge Content

One of the approaches to manipulate MnBi2Te4 properties is the magnetic dilution, which inevitably affects the interplay of magnetism and band topology in the system. In this work, we carried out angle-resolved photoemission spectroscopy (ARPES) measurements and density functional theory (DFT) calcu...

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Published inNanomaterials (Basel, Switzerland) Vol. 13; no. 14
Main Authors Estyunina, Tatiana P, Shikin, Alexander M, Estyunin, Dmitry A, Eryzhenkov, Alexander V, Klimovskikh, Ilya I, Bokai, Kirill A, Golyashov, Vladimir A, Kokh, Konstantin A, Tereshchenko, Oleg E, Kumar, Shiv, Shimada, Kenya, Tarasov, Artem V
Format Journal Article
LanguageEnglish
Published Switzerland 24.07.2023
Subjects
magnetic topological insulator
topological vertical heterostructure
ab-initio calculations
ARPES
electronic structure
topological surface states
topological phase transition
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Abstract One of the approaches to manipulate MnBi2Te4 properties is the magnetic dilution, which inevitably affects the interplay of magnetism and band topology in the system. In this work, we carried out angle-resolved photoemission spectroscopy (ARPES) measurements and density functional theory (DFT) calculations for analysing changes in the electronic structure of Mn1-xGexBi2Te4 that occur under parameter x variation. We consider two ways of Mn/Ge substitution: (i) bulk doping of the whole system; (ii) surface doping of the first septuple layer. For the case (i), the experimental results reveal a decrease in the value of the bulk band gap, which should be reversed by an increase when the Ge concentration reaches a certain value. Ab-initio calculations show that at Ge concentrations above 50%, there is an absence of the bulk band inversion of the Te pz and Bi pz contributions at the Γ-point with significant spatial redistribution of the states at the band gap edges into the bulk, suggesting topological phase transition in the system. For case (ii) of the vertical heterostructure Mn1-xGexBi2Te4/MnBi2Te4, it was shown that an increase of Ge concentration in the first septuple layer leads to effective modulation of the Dirac gap in the absence of significant topological surface states of spatial redistribution. The results obtained indicate that surface doping compares favorably compared to bulk doping as a method for the Dirac gap value modulation.
AbstractList One of the approaches to manipulate MnBi2Te4 properties is the magnetic dilution, which inevitably affects the interplay of magnetism and band topology in the system. In this work, we carried out angle-resolved photoemission spectroscopy (ARPES) measurements and density functional theory (DFT) calculations for analysing changes in the electronic structure of Mn1-xGexBi2Te4 that occur under parameter x variation. We consider two ways of Mn/Ge substitution: (i) bulk doping of the whole system; (ii) surface doping of the first septuple layer. For the case (i), the experimental results reveal a decrease in the value of the bulk band gap, which should be reversed by an increase when the Ge concentration reaches a certain value. Ab-initio calculations show that at Ge concentrations above 50%, there is an absence of the bulk band inversion of the Te pz and Bi pz contributions at the Γ-point with significant spatial redistribution of the states at the band gap edges into the bulk, suggesting topological phase transition in the system. For case (ii) of the vertical heterostructure Mn1-xGexBi2Te4/MnBi2Te4, it was shown that an increase of Ge concentration in the first septuple layer leads to effective modulation of the Dirac gap in the absence of significant topological surface states of spatial redistribution. The results obtained indicate that surface doping compares favorably compared to bulk doping as a method for the Dirac gap value modulation.
Author Klimovskikh, Ilya I
Estyunin, Dmitry A
Bokai, Kirill A
Shikin, Alexander M
Kumar, Shiv
Kokh, Konstantin A
Shimada, Kenya
Tarasov, Artem V
Estyunina, Tatiana P
Eryzhenkov, Alexander V
Golyashov, Vladimir A
Tereshchenko, Oleg E
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  givenname: Alexander M
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  surname: Golyashov
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  organization: Rzhanov Institute of Semiconductor Physics, Siberian Branch, Russian Academy of Sciences, Novosibirsk 630090, Russia
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  givenname: Konstantin A
  orcidid: 0000-0003-1967-9642
  surname: Kokh
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  organization: Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences, Novosibirsk 630090, Russia
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  givenname: Oleg E
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  surname: Tereshchenko
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  orcidid: 0000-0002-3628-4856
  surname: Tarasov
  fullname: Tarasov, Artem V
  organization: Department of Physics, Saint Petersburg State University, St. Petersburg 198504, Russia
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Keywords magnetic topological insulator
topological vertical heterostructure
ab-initio calculations
ARPES
electronic structure
topological surface states
topological phase transition
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