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論文

Layer-number-independent two-dimensional ferromagnetism in Cr$$_3$$Te$$_4$$

Wang, Y.*; 梶原 駿*; 松岡 秀樹*; Saika, B. K.*; 山神 光平*; 竹田 幸治; 和達 大樹*; 石坂 香子*; 岩佐 義宏*; 中野 匡規*

Nano Letters, 22(24), p.9964 - 9971, 2022/12

 被引用回数:25 パーセンタイル:92.94(Chemistry, Multidisciplinary)

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 Cr$$_3$$Te$$_4$$. We fabricated Cr$$_3$$Te$$_4$$ thin films by molecular-beam epitaxy and found that Cr$$_3$$Te$$_4$$ could host two distinct ferromagnetic phases characterized with different Curie temperatures ($$T_mathrm{C}$$). One is the bulk-like high-$$T_mathrm{C}$$ phase showing room-temperature ferromagnetism, which is consistent with previous studies. The other is the metastable low-$$T_mathrm{C}$$ phase with $$T_mathrm{C}$$ $${approx}$$ 160 K, which exhibits a layer-number-independent $$T_mathrm{C}$$ down to the 2D limit in marked contrast with the conventional high-$$T_mathrm{C}$$ 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.

論文

Spin-orbit-induced Ising ferromagnetism at a van der Waals interface

松岡 秀樹*; Barnes, S. E.*; 家田 淳一; 前川 禎通; Bahramy, M. S.*; Saika, B. K.*; 竹田 幸治; 和達 大樹*; Wang, Y.*; 吉田 訓*; et al.

Nano Letters, 21(4), p.1807 - 1814, 2021/02

 被引用回数:17 パーセンタイル:76.87(Chemistry, Multidisciplinary)

Magnetocrystalline anisotropy, a key ingredient for establishing long-range order in a magnetic material down to the two-dimensional (2D) limit, is generally associated with spin-orbit interaction (SOI) involving a finite orbital angular momentum. Here we report strong out-of-plane magnetic anisotropy without orbital angular momentum, emerging at the interface between two different van der Waals (vdW) materials, an archetypal metallic vdW material NbSe$$_{2}$$ possessing Zeeman-type SOI and an isotropic vdW ferromagnet V$${}_5$$Se$${}_8$$. We found that the Zeeman SOI in NbSe$$_{2}$$ induces robust out-of-plane magnetic anisotropy in V$$_{5}$$Se$$_{8}$$ down to the 2D limit with a more than 2-fold enhancement of the transition temperature. We propose a simple model that takes into account the energy gain in NbSe$$_{2}$$ in contact with a ferromagnet, which naturally explains our observations. Our results demonstrate a conceptually new magnetic proximity effect at the vdW interface, expanding the horizons of emergent phenomena achievable in vdW heterostructures.

論文

Competing spin modulations in the magnetically frustrated semimetal EuCuSb

高橋 英史*; 青野 快*; 南部 雄亮*; 鬼柳 亮嗣; 野本 拓也*; 坂野 昌人*; 石坂 香子*; 有田 亮太郎*; 石渡 晋太郎*

Physical Review B, 102(17), p.174425_1 - 174425_6, 2020/11

 被引用回数:13 パーセンタイル:58.14(Materials Science, Multidisciplinary)

六方晶層状構造を有する遍歴磁石EuCuSbの競合する磁気基底状態を、単結晶試料を用いた磁化、抵抗率および中性子回折によって測定した。EuCuSbは、バンド計算と角度分解光電子分光法によって3次元の半金属バンド構造を持つことがわかっており、常磁性状態でのほぼ等方性の金属伝導率と一致している。一方、反強磁性転移温度($$T$$$$_{rm N1}$$=8.5K)以下では、特にc軸に沿った抵抗率が大幅な増加を示し、伝導電子に結合した異方的な磁気秩序の出現を示唆する。中性子回折実験の結果、各層内で強磁性的に秩序化するEuスピンが、$$T$$$$_{rm N1}$$以下ではc軸に沿ってコリニアに変調し、$$T$$$$_{rm N2}$$(6K)以下では、部分的にらせんスピン変調が出現することがわかった。異常な磁気抵抗の観測に基づき、中心対称構造を持つフラストレーションのあるHeisenberg-likeなスピン系に固有の基底状態の競合する性質について議論する。

論文

Intrinsic 2D ferromagnetism in V$$_{5}$$Se$$_{8}$$ epitaxial thin films

中野 匡規*; Wang, Y.*; 吉田 訓*; 松岡 秀樹*; 真島 裕貴*; 池田 啓祐*; 平田 靖透*; 竹田 幸治; 和達 大樹*; 小濱 芳允*; et al.

Nano Letters, 19(12), p.8806 - 8810, 2019/12

 被引用回数:60 パーセンタイル:91.63(Chemistry, Multidisciplinary)

The discoveries of intrinsic ferromagnetism in atomically thin van der Waals crystals have opened a new research field enabling fundamental studies on magnetism at two-dimensional (2D) limit as well as development of magnetic van der Waals heterostructures. Here we demonstrate that V$$_{5}$$Se$$_{8}$$ epitaxial thin films grown by molecular-beam epitaxy exhibit emergent 2D ferromagnetism with intrinsic spin polarization of the V 3d electrons although the bulk counterpart is originally antiferromagnetic. Moreover, thickness-dependence measurements reveal that this newly developed 2D ferromagnet could be classified as an itinerant 2D Heisenberg ferromagnet with weak magnetic anisotropy.

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