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W4322732810 abstract "We study theoretically the interplay between magnetism and topology in three-dimensional HgTe/MnTe superlattices stacked along the (001) axis. Our results show the evolution of the magnetic topological phases with respect to the magnetic configurations. An axion insulator phase is observed for the antiferromagnetic order with the out-of-plane N'eel vector direction below a critical thickness of MnTe, which is the ground state among all magnetic configurations. Defining $T$ as the time-reversal symmetry, this axion insulator phase is protected by a magnetic twofold rotational symmetry ${C}_{2}ifmmodecdotelsetextperiodcenteredfi{}T$. We find that the axion insulator phase evolves into a trivial insulator as we increase the number of the magnetic MnTe layers, and we present an estimate of the critical thickness of the MnTe film above which the axion insulator phase is absent. By switching the N'eel vector direction into the $ab$ plane, the system realizes different antiferromagnetic topological insulators depending on the thickness of MnTe. These phases feature gapless surface Dirac cones shifted away from high-symmetry points on surfaces perpendicular to the N'eel vector direction of the magnetic layers. In the presence of ferromagnetism, the system realizes a magnetic Weyl semimetal and a ferromagnetic semimetal for out-of-plane and in-plane magnetization directions, respectively. We observe large anomalous Hall conductivity in the presence of ferromagnetism in the three-dimensional superlattice." @default.
W4322732810 created "2023-03-03" @default.
W4322732810 creator A5015129357 @default.
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W4322732810 date "2023-03-01" @default.
W4322732810 modified "2023-10-18" @default.
W4322732810 title "Engineering axion insulator and other topological phases in superlattices without inversion symmetry" @default.
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W4322732810 doi "https://doi.org/10.1103/physrevb.107.125102" @default.
W4322732810 hasPublicationYear "2023" @default.
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