Strain-induced topological phase transition in ferromagnetic Janus monolayer MnSbBiS2Te2

Romakanta Bhattarai; Peter Minch; Yunfan Liang; Shengbai Zhang; Trevor David Rhone

doi:10.1039/D3CP05578G

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Strain-induced topological phase transition in ferromagnetic Janus monolayer MnSbBiS₂Te₂†

Romakanta Bhattarai,

^a Peter Minch,

^a Yunfan Liang,^a Shengbai Zhang^a and Trevor David Rhone*^a

Author affiliations

* Corresponding authors

^a Department of Physics, Applied Physics, and Astronomy, Rensselaer Polytechnic Institute, Troy, NY, USA
E-mail: rhonet@rpi.edu

Abstract

We investigate a strain-induced topological phase transition in the ferromagnetic Janus monolayer MnSbBiS₂Te₂ using first-principles calculations. The electronic, magnetic, and topological properties are studied under biaxial strain within the range of −8 to +8%. The ground state of monolayer MnSbBiS₂Te₂ is metallic with an out-of-plane magnetic easy axis. A band gap is opened when a compressive strain between −4% and −7% is applied. We observe a topological phase transition at a biaxial strain of −5%, where the material becomes a Chern insulator exhibiting a quantum anomalous hall (QAH) effect. We find that biaxial strain and spin–orbit coupling (SOC) are responsible for the topological phase transition in MnSbBiS₂Te₂. In addition, we find that biaxial strain can alter the direction of the magnetic easy axis of MnSbBiS₂Te₂. The Curie temperature is calculated using the Heisenberg model and is found to be 24 K. This study could pave the way to the design of topological materials with potential applications in spintronics, quantum computing, and dissipationless electronics.

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Article information

DOI: https://doi.org/10.1039/D3CP05578G
Article type: Paper
Submitted: 17 Nov 2023
Accepted: 05 Mar 2024
First published: 14 Mar 2024
This article is Open Access

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Phys. Chem. Chem. Phys., 2024,26, 10111-10119

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Strain-induced topological phase transition in ferromagnetic Janus monolayer MnSbBiS₂Te₂

R. Bhattarai, P. Minch, Y. Liang, S. Zhang and T. D. Rhone, Phys. Chem. Chem. Phys., 2024, 26, 10111 DOI: 10.1039/D3CP05578G

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