Surface states and Rashba-type spin polarization in antiferromagnetic MnBi$_2$Te$_4$

Authors :: Vidal, R. C.
Bentmann, H.
Peixoto, T. R. F.
Zeugner, A.
Moser, S.
Min, C. H.
Schatz, S.
Kissner, K.
Ünzelmann, M.
Fornari, C. I.
Vasili, H. B.
Valvidares, M.
Sakamoto, K.
Mondal, D.
Fujii, J.
Vobornik, I.
Jung, S.
Cacho, C.
Kim, T. K.
Koch, R. J.
Jozwiak, C.
Bostwick, A.
Denlinger, J. D.
Rotenberg, E.
Buck, J.
Hoesch, M.
Diekmann, F.
Rohlf, S.
Kalläne, M.
Rossnagel, K.
Otrokov, M. M.
Chulkov, E. V.
Ruck, M.
Isaeva, A.
Reinert, F.
Source :: Phys. Rev. B 100, 121104 (2019)
Publication Year :: 2019
Abstract: The layered van der Waals antiferromagnet MnBi$_2$Te$_4$ has been predicted to combine the band ordering of archetypical topological insulators such as Bi$_2$Te$_3$ with the magnetism of Mn, making this material a viable candidate for the realization of various magnetic topological states. We have systematically investigated the surface electronic structure of MnBi$_2$Te$_4$(0001) single crystals by use of spin- and angle-resolved photoelectron spectroscopy experiments. In line with theoretical predictions, the results reveal a surface state in the bulk band gap and they provide evidence for the influence of exchange interaction and spin-orbit coupling on the surface electronic structure.<br />Comment: Revised version

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