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TT: Fachverband Tiefe Temperaturen

TT 10: Topological Semimetals

TT 10.1: Vortrag

Montag, 17. März 2025, 15:00–15:15, H36

Uniaxial pressure tuning of the anomalous Hall effect in Mn₃Ge — •Gustavo Lombardi¹, Leonardo Oparacz Kutelak², Mario Moda Piva¹, Vinicius Estevo Silva Frehse³, Guilherme Calligaris², Ricardo Donizeth dos Reis², and Michael Nicklas¹ — ¹Max Planck Institute for Chemical Physics of Solids, 01187, Dresden, Germany — ²Brazilian Synchrotron Light Laboratory, 13083-100, Campinas, Brazil — ³Center for Electronic Correlations and Magnetism, 86159, Augsburg, Germany

The hexagonal Heusler compound Mn₃Ge exhibits an antiferromagnetic structure in which the Mn spins are arranged in a 120^∘ triangular configuration characteristic of a Kagome lattice in the ab plane. These Kagome layers are periodically stacked along the c axis. This structure gives rise to a large anomalous Hall effect (AHE) due to a non-vanishing Berry curvature. Uniaxial pressure provides an effective method for tuning the AHE in Mn₃Ge. Our results reveal that applying stress along the a direction, which induces a distortion in the ab plane, significantly modifies the Hall signal. In contrast, stress applied along the c axis has no visible effect on the Hall signal. These results, combined with previous hydrostatic pressure data [1], suggest that the strong variations in the AHE are due to changes in the magnetic order in the ab plane. We also find that the application of hydrostatic and uniaxial pressure leads to different modifications of the magnetic order, the former inducing an out-of-plane tilt of the Mn spins, while the latter induces rotations of the Mn spins within the ab plane.

[1] R. D. Dos Reis et al., Phys. Rev. Mater. 4, 51401 (2020).

Keywords: Anomalous Hall effect; Uniaxial pressure; Topological semimetals; Heusler compounds; Antiferromagnetism