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Layer-Number-Independent Two-Dimensional Ferromagnetism in Cr<sub>3</sub>Te<sub>4</sub>

Yue Wang, Shun Kajihara, Hideki Matsuoka, Bruno Kenichi Saika, Kohei Yamagami, Yukiharu Takeda, Hiroki Wadati, K. Ishizaka, Yoshihiro Iwasa, Masaki Nakano

2022Nano Letters49 citationsDOI

Abstract

In a conventional magnetic material, a long-range magnetic order develops in three dimensions, and reducing a layer number weakens its magnetism. Here we demonstrate anomalous layer-number-independent ferromagnetism down to the two-dimensional (2D) limit in a metastable phase of Cr3Te4. We fabricated Cr3Te4 thin films by molecular-beam epitaxy and found that Cr3Te4 could host two distinct ferromagnetic phases characterized with different Curie temperatures (TC). One is the bulk-like “high-TC phase” showing room-temperature ferromagnetism, which is consistent with previous studies. The other is the metastable “low-TC phase” with TC ≈ 160 K, which exhibits a layer-number-independent TC down to the 2D limit in marked contrast with the conventional high-TC phase, demonstrating a purely 2D nature of its ferromagnetism. Such significant differences between two distinct phases could be attributed to a small variation in the doping level, making this material attractive for future ultracompact spintronics applications with potential gate-tunable room-temperature 2D ferromagnetism.

Topics & Concepts

FerromagnetismCondensed matter physicsCurie temperatureMolecular beam epitaxySpintronicsMetastabilityMagnetismMaterials sciencePhase (matter)Magnetic semiconductorLayer (electronics)EpitaxyNanotechnologyPhysicsQuantum mechanics2D Materials and ApplicationsMXene and MAX Phase MaterialsMultiferroics and related materials
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