Origin of the exotic electronic states in antiferromagnetic NdSb

Origin of the exotic electronic states in antiferromagnetic NdSb

Using angle resolved photoemission spectroscopy measurements and first principle calculations, we report that the possible unconventional 2q antiferromagnetic (AFM) order in NdSb can induce unusual modulation on its electronic structure. The obvious extra bands observed in the AFM phase of NdSb are...

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Veröffentlicht in:npj quantum materials 2023-05, Vol.8 (1), p.22-7, Article 22
Hauptverfasser: Li, Peng, Li, Tongrui, Liao, Sen, Cao, Zhipeng, Xu, Rui, Wang, Yuzhe, Yao, Jianghao, Cui, Shengtao, Sun, Zhe, Wang, Yilin, Wan, Xiangang, Jiang, Juan, Feng, Donglai
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Sprache:eng
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639/766/119/2792
639/766/119/995
639/766/119/997
Antiferromagnetism
Band theory
Banded structure
Chemical potential
Condensed Matter Physics
Electron states
Electronic structure
Electrons
First principles
Laboratories
Mathematical analysis
Phase transitions
Photoelectric emission
Physics
Physics and Astronomy
Quantum Physics
Spectrum analysis
Structural Materials
Surfaces and Interfaces
Symmetry
Thin Films
Topological insulators
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Zusammenfassung:Using angle resolved photoemission spectroscopy measurements and first principle calculations, we report that the possible unconventional 2q antiferromagnetic (AFM) order in NdSb can induce unusual modulation on its electronic structure. The obvious extra bands observed in the AFM phase of NdSb are well reproduced by theoretical calculations, in which the Fermi-arc-like structures and sharp extra bands are originated from the in-gap surface states. However, they are demonstrated to be topological trivial. By tuning the chemical potential, the AFM phase of NdSb would go through a topological phase transition, realizing a magnetic topological insulator phase. Hence, our study sheds new light on the rare earth monopnictides for searching unusual AFM structure and the potential of intrinsic magnetic topological materials.
ISSN:2397-4648
2397-4648
DOI:10.1038/s41535-023-00557-8