Journal of Alloys and Compounds2022,Vol.8906.DOI:10.1016/j.jallcom.2021.161824

Structural, optical and electronic properties of the wide bandgap topological insulator Bi1.1Sb0.9Te2S

Ponosov Y.S. Kuznetsova T.V. Seibel C. Bentmann H. Reinert F. Orlita M. Golyashov V. Stepina N.P. Tereshchenko O.E. Mudriy A.V. Kokh K.A. Martin R.W. Khatchenko Y.E. Yakushev M.V.
Journal of Alloys and Compounds2022,Vol.8906.DOI:10.1016/j.jallcom.2021.161824
  • NSTL
  • Elsevier

Structural, optical and electronic properties of the wide bandgap topological insulator Bi1.1Sb0.9Te2S

Ponosov Y.S. 1Kuznetsova T.V. 1Seibel C. 2Bentmann H. 2Reinert F. 2Orlita M. 3Golyashov V. 4Stepina N.P. 4Tereshchenko O.E. 4Mudriy A.V. 5Kokh K.A. 6Martin R.W. 7Khatchenko Y.E. 1Yakushev M.V.1
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作者信息

  • 1. M.N. Miheev Institute of Metal Physics of UB RAS
  • 2. Experimentelle Physik VII and Würzburg-Dresden Cluster of Excellence ct.qmat Universit?t Würzburg
  • 3. LNCMI
  • 4. Rzhanov Institute of Semiconductor Physics of SB RAS
  • 5. Scienti?c-Practical Material Research Centre of NASB
  • 6. V.S. Sobolev Institute of Geology and Mineralogy of SB RAS
  • 7. Department of Physics SUPA Strathclyde University
  • 折叠

Abstract

Successful applications of a topological insulator (TI) in spintronics require its bandgap to be wider then in a typical TI and the energy position of the Dirac point in the dispersion relations to be away from the valence and conduction bands. In this study we grew Bi1.1Sb0.9Te2S crystals and examined their elemental composition, structural, optical and electronic properties as well as the electronic band structure. The high structural quality of the grown crystals was established by X-ray diffraction and Raman spectroscopy. Angular resolved photoelectron spectroscopy demonstrated a near parabolic character of the valence and conduction bands and a direct bandgap of 0.36 eV. The dispersion relations also revealed a Dirac cone, confirming the topological insulator nature of this material, with the position of the Dirac point being 100 meV above the valence band maximum. Far infrared reflectivity spectra revealed a plasma edge and two phonon dips. Fitting these spectra with theoretical functions based on the Drude-Lorentz model allows determination of the high frequency dielectric constant (41.3), plasma frequency (936 cm?1) and the frequencies of two infrared phonons (177.7 cm?1 and 77.4 cm?1).

Key words

ARPES/Bi1.1Sb0.9Te2S/Electronic structure/Far infrared/Optical reflectivity/Topological insulator

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出版年

2022
Journal of Alloys and Compounds

Journal of Alloys and Compounds

EISCI
ISSN:0925-8388
被引量3
参考文献量33
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