Pressure-cycling induced transition behaviors of MnBi2Te4

Pressure-cycling induced transition behaviors of MnBi2Te4

MnBi2Te4 can generate a variety of exotic topological quantum states, which are closely related to its special structure. We conduct comprehensive multiple-cycle high-pressure research on MnBi2Te4 by using a diamond anvil cell to study its phase transition behaviors under high pressure. As observed,...

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Veröffentlicht in:The Journal of chemical physics 2024-01, Vol.160 (3)
Hauptverfasser: Wu, Jie, Feng, Yan, Ren, Yifeng, Zhang, Ziyou, Yang, Yanping, Wang, Xinyao, Su, Fuhai, Dong, Hongliang, Lu, Yang, Zhang, Xiaojun, Deng, Yu, Xiang, Bin, Chen, Zhiqiang
Format: Artikel
Sprache:eng
Schlagworte:
Cycles
Diamond anvil cells
High pressure
Phase transitions
Topology
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Zusammenfassung:MnBi2Te4 can generate a variety of exotic topological quantum states, which are closely related to its special structure. We conduct comprehensive multiple-cycle high-pressure research on MnBi2Te4 by using a diamond anvil cell to study its phase transition behaviors under high pressure. As observed, when the pressure does not exceed 15 GPa, the material undergoes an irreversible metal–semiconductor–metal transition, whereas when the pressure exceeds 17 GPa, the layered structure is damaged and becomes irreversibly amorphous due to the lattice distortion caused by compression, but it is not completely amorphous, which presents some nano-sized grains after decompression. Our investigation vividly reveals the phase transition behaviors of MnBi2Te4 under high pressure cycling and paves the experimental way to find topological phases under high pressure.
ISSN:0021-9606
1089-7690
DOI:10.1063/5.0184624