Magnetic Dirac semimetal state of (Mn,Ge)Bi$_2$Te$_4$

Alexander S. Frolov; Dmitry Yu. Usachov; Artem V. Tarasov; Alexander; V. Fedorov; Kirill A. Bokai; Ilya Klimovskikh; Vasily S. Stolyarov; Anton I.; Sergeev; Alexander N. Lavrov; Vladimir A. Golyashov; Oleg E. Tereshchenko,; Giovanni Di Santo; Luca Petaccia; Oliver J. Clark; Jaime Sanchez-Barriga and; Lada V. Yashina

arXiv:2306.13024·cond-mat.mtrl-sci·June 23, 2023·1 cites

Magnetic Dirac semimetal state of (Mn,Ge)Bi$_2$Te$_4$

Alexander S. Frolov, Dmitry Yu. Usachov, Artem V. Tarasov, Alexander, V. Fedorov, Kirill A. Bokai, Ilya Klimovskikh, Vasily S. Stolyarov, Anton I., Sergeev, Alexander N. Lavrov, Vladimir A. Golyashov, Oleg E. Tereshchenko,, Giovanni Di Santo, Luca Petaccia, Oliver J. Clark

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TL;DR

This study demonstrates how tuning the composition of Ge$_x$Mn$_{1-x}$Bi$_2$Te$_4$ allows precise control over topological and magnetic phases, revealing a magnetic Dirac semimetal state near a critical composition.

Contribution

It introduces a new magnetic topological semimetal state in (Mn,Ge)Bi$_2$Te$_4$ and elucidates the topological phase transitions driven by orbital contributions and spin-orbit coupling variations.

Findings

01

Observation of topological phase transitions with composition.

02

Identification of a magnetic Dirac semimetal state at x=0.42.

03

Control of topological and magnetic properties via composition tuning.

Abstract

For quantum electronics, the possibility to finely tune the properties of magnetic topological insulators (TIs) is a key issue. We studied solid solutions between two isostructural Z $_{2}$ TIs, magnetic MnBi $_{2}$ Te $_{4}$ and nonmagnetic GeBi $_{2}$ Te $_{4}$ , with Z $_{2}$ invariants of 1;000 and 1;001, respectively. For high-quality, large mixed crystals of Ge $_{x}$ Mn $_{1 - x}$ Bi $_{2}$ Te $_{4}$ , we observed linear x-dependent magnetic properties, composition-independent pairwise exchange interactions along with an easy magnetization axis. The bulk band gap gradually decreases to zero for $x$ from 0 to 0.4, before reopening for $x > 0.6$ , evidencing topological phase transitions (TPTs) between topologically nontrivial phases and the semimetal state. The TPTs are driven purely by the variation of orbital contributions. By tracing the x-dependent $6 p$ contribution to the states near the fundamental gap, the…

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Taxonomy

TopicsTopological Materials and Phenomena · Graphene research and applications · Magnetic properties of thin films