Intrinsic and tunable quantum anomalous Hall effect and magnetic topological phases in XYBi2Te5

Intrinsic and tunable quantum anomalous Hall effect and magnetic topological phases in XYBi2Te5

By first-principles calculations, we study the magnetic and topological properties of XYBi2Te5-family (X, Y = Mn, Ni, V, Eu) compounds. The strongly coupled double magnetic atom-layers can significantly enhance the magnetic ordering temperature while keeping the topologically nontrivial properties....

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Veröffentlicht in:arXiv.org 2023-07
Hauptverfasser: Xin-Yi, Tang, Li, Zhe, Xue, Feng, Ji, Pengfei, Zhang, Zetao, Xiao, Feng, Xu, Yong, Wu, Quansheng, He, Ke
Format: Artikel
Sprache:eng
Schlagworte:
Curie temperature
First principles
High temperature
Magnetic properties
Nickel compounds
Physics - Materials Science
Quantum Hall effect
Room temperature
Thin films
Topology
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Zusammenfassung:By first-principles calculations, we study the magnetic and topological properties of XYBi2Te5-family (X, Y = Mn, Ni, V, Eu) compounds. The strongly coupled double magnetic atom-layers can significantly enhance the magnetic ordering temperature while keeping the topologically nontrivial properties. Particularly, NiVBi2Te5 is found to be a magnetic Weyl semimetal in bulk and a Chern insulator in thin film with both the Curie temperature (~150 K) and full gap well above 77 K. Ni2Bi2Te5, MnNiBi2Te5, NiVBi2Te5 and NiEuBi2Te5 exhibits intrinsic dynamic axion state. Among them, MnNiBi2Te5 has a Neel temperature over 200 K and Ni2Bi2Te5 even demonstrates antiferromagnetic order above room temperature. These results indicate an approach to realize high temperature quantum anomalous Hall effect and other topological quantum effects for practical applications.
ISSN:2331-8422
DOI:10.48550/arxiv.2211.08163