DOI

  • E. F. Schwier
  • S Kumar
  • K Miyamoto
  • T. Okuda
  • A. Kimura
  • K. Kuroda
  • K. Yaji
  • S. Shin
  • Y. Takeda
  • Y. Saitoh
  • Z. S. Aliev
  • N. T. Mamedov
  • I. R. Amiraslanov
  • M.B. Babanly
  • E.V. Chulkov

Modification of the gap at the Dirac point (DP) in axion antiferromagnetic topological insulator MnBi 2Te 4 and its electronic and spin structure have been studied by angle- and spin-resolved photoemission spectroscopy (ARPES) under laser excitation at various temperatures (9–35 K), light polarizations and photon energies. We have distinguished both large (60–70 meV) and reduced (<20meV) gaps at the DP in the ARPES dispersions, which remain open above the Neél temperature (TN=24.5K). We propose that the gap above T N remains open due to a short-range magnetic field generated by chiral spin fluctuations. Spin-resolved ARPES, XMCD and circular dichroism ARPES measurements show a surface ferromagnetic ordering for the “large gap” sample and apparently significantly reduced effective magnetic moment for the “reduced gap” sample. These observations can be explained by a shift of the Dirac cone (DC) state localization towards the second Mn layer due to structural disturbance and surface relaxation effects, where DC state is influenced by compensated opposite magnetic moments. As we have shown by means of ab-initio calculations surface structural modification can result in a significant modulation of the DP gap.

Язык оригиналаанглийский
Номер статьи13226
ЖурналScientific Reports
Том10
Номер выпуска1
DOI
СостояниеОпубликовано - 1 дек 2020

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