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Evolution of electronic and magnetic properties in the topological semimetal SmSb$_x$Te$_{2-x}$
Pandey, Krishna Basnet, Rabindra Wang, Jian Da, Bo Hu, Jin
Pandey, Krishna
Basnet, Rabindra
Wang, Jian
Da, Bo
Hu, Jin
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2022-04-21
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Preprint
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Keywords
Magnetic order,Topological materials,Topological phases of matter,Antiferromagnets,Single crystal materials,Strongly correlated systems,Crystal growth,Crystal structures,Energy-dispersive x-ray spectroscopy,Magnetization measurements,Specific heat measurements,X-ray diffraction
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Citation
Pandey, K., Basnet, R., Wang, J., Da, B., & Hu, J. (2022). Evolution of electronic and magnetic properties in the topological semimetal $\mathrm{Sm}{\mathrm{Sb}}_{x}{\mathrm{Te}}_{2{-}x}$. 105(15). https://doi.org/https://doi.org/10.1103/PhysRevB.105.155139
Abstract
The ZrSiS-Type materials have attracted intensive attention due to the existence of various topological fermions. The magnetic version of the ZrSiS-Type materials, LnSbTe (Ln=lanthanides), is an ideal candidate to explore novel exotic states due to the interaction between magnetism and topology. In this work, we report the experimental study on structural, magnetic, thermodynamic, and electronic properties for SmSb$_x$Te$_{2-x}$ with various Sb content. The revealed evolutions of these properties with tuning the compositions would provide useful insights for the fundamental topological physics and the future applications.
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Preprint version available from arXiv.
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American Physical Society
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Physical Review B
v.105 no.15
v.105 no.15
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2469-9950