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Neutron diffraction study of magnetism in van der Waals layered MnBi2n Te3n+1

Publication ,  Journal Article
Ding, L; Hu, C; Feng, E; Jiang, C; Kibalin, IA; Gukasov, A; Chi, M; Ni, N; Cao, H
Published in: Journal of Physics D: Applied Physics
April 29, 2021

Two-dimensional van der Waals MnBi2n Te3n+1 (n = 1, 2, 3, 4) compounds have been recently found to be intrinsic magnetic topological insulators rendering quantum anomalous Hall effect and diverse topological states. Here, we summarize and compare the crystal and magnetic structures of this family, and discuss the effects of chemical composition on their magnetism. We found that a considerable fraction of Bi occupies at the Mn sites in MnBi2n Te3n+1 (n = 1, 2, 3, 4) while there is no detectable Mn at the non-magnetic atomic sites within the resolution of neutron diffraction experiments. The occupancy of Mn monotonically decreases with the increase of n. The polarized neutron diffraction on the representative MnBi4Te7 reveals that its magnetization density is exclusively accumulated at the Mn site, in good agreement with the results from the unpolarized neutron diffraction. The defects of Bi at the Mn site naturally explain the continuously reduced saturated magnetic moments from n = 1 to n = 4. The experimentally estimated critical exponents of all the compounds generally suggest a three-dimensional character of magnetism. Our work provides material-specified structural parameters that may be useful for band structure calculations to understand the observed topological surface states and for designing quantum magnetic materials through chemical doping.

Duke Scholars

Published In

Journal of Physics D: Applied Physics

DOI

EISSN

1361-6463

ISSN

0022-3727

Publication Date

April 29, 2021

Volume

54

Issue

17

Related Subject Headings

  • Applied Physics
  • 51 Physical sciences
  • 40 Engineering
  • 09 Engineering
  • 02 Physical Sciences
 

Citation

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Ding, L., Hu, C., Feng, E., Jiang, C., Kibalin, I. A., Gukasov, A., … Cao, H. (2021). Neutron diffraction study of magnetism in van der Waals layered MnBi2n Te3n+1. Journal of Physics D: Applied Physics, 54(17). https://doi.org/10.1088/1361-6463/abe0dd
Ding, L., C. Hu, E. Feng, C. Jiang, I. A. Kibalin, A. Gukasov, M. Chi, N. Ni, and H. Cao. “Neutron diffraction study of magnetism in van der Waals layered MnBi2n Te3n+1.” Journal of Physics D: Applied Physics 54, no. 17 (April 29, 2021). https://doi.org/10.1088/1361-6463/abe0dd.
Ding L, Hu C, Feng E, Jiang C, Kibalin IA, Gukasov A, et al. Neutron diffraction study of magnetism in van der Waals layered MnBi2n Te3n+1. Journal of Physics D: Applied Physics. 2021 Apr 29;54(17).
Ding, L., et al. “Neutron diffraction study of magnetism in van der Waals layered MnBi2n Te3n+1.” Journal of Physics D: Applied Physics, vol. 54, no. 17, Apr. 2021. Scopus, doi:10.1088/1361-6463/abe0dd.
Ding L, Hu C, Feng E, Jiang C, Kibalin IA, Gukasov A, Chi M, Ni N, Cao H. Neutron diffraction study of magnetism in van der Waals layered MnBi2n Te3n+1. Journal of Physics D: Applied Physics. 2021 Apr 29;54(17).
Journal cover image

Published In

Journal of Physics D: Applied Physics

DOI

EISSN

1361-6463

ISSN

0022-3727

Publication Date

April 29, 2021

Volume

54

Issue

17

Related Subject Headings

  • Applied Physics
  • 51 Physical sciences
  • 40 Engineering
  • 09 Engineering
  • 02 Physical Sciences