Tuning the magnetic properties of altermagnetic MnTe with pressure
Edison P Carlisle, Benjamin A Frandsen

TL;DR
This paper explores how pressure affects the magnetic properties of MnTe, a material with potential applications in spintronics and thermoelectrics.
Contribution
The study reveals how pressure can tune MnTe's magnetic properties, offering new insights into magnetostructural coupling.
Findings
Applying pressure increases the Néel temperature of MnTe.
Pressure decreases the ordered magnetic moment in MnTe.
The results are explained using a tight-binding model and density functional theory calculations.
Abstract
Hexagonal MnTe is an antiferromagnet with a Néel temperature of 307 K. Recently, it has attracted enormous interest as a leading example of the recently discovered altermagnet phase, as well as potential applications as a magnetically enhanced thermoelectric and as a platform for antiferromagnetic spintronics. MnTe has the largest spontaneous magnetovolume effect of any known antiferromagnet, implying strong coupling between the magnetic moment and volume. Here we use neutron scattering with in situ applied pressure to determine the effects of pressure on the magnetic properties of MnTe and further explore this magnetostructural coupling. We find that applying pressure significantly increases the Néel temperature but decreases the ordered magnetic moment, which we explain through the lens of the tight-binding model and supporting density functional theory calculations. These results…
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Taxonomy
Topics2D Materials and Applications · Topological Materials and Phenomena · Heusler alloys: electronic and magnetic properties
