Multi‐Level Switching of Spin‐Torque Ferromagnetic Resonance in 2D Magnetite

自旋电子学 神经形态工程学 材料科学 凝聚态物理 磁铁矿 铁磁性 铁磁共振 自旋(空气动力学) 纳米技术 磁场 光电子学 磁化 计算机科学 物理 人工神经网络 人工智能 量子力学 冶金 热力学
作者
Zhiyan Jia,Qian Chen,Wenjie Wang,Rong Sun,Zichao Li,René Hübner,Shengqiang Zhou,Miming Cai,Weiming Lv,Zhipeng Yu,Fang Zhang,Mengfan Zhao,Sen Tian,Lixuan Liu,Zhongming Zeng,Yong Jiang,Zhongchang Wang
出处
期刊:Advanced Science [Wiley]
卷期号:11 (26) 被引量:1
标识
DOI:10.1002/advs.202401944
摘要

Abstract 2D magnetic materials hold substantial promise in information storage and neuromorphic device applications. However, achieving a 2D material with high Curie temperature ( T C ), environmental stability, and multi‐level magnetic states remains a challenge. This is particularly relevant for spintronic devices, which require multi‐level resistance states to enhance memory density and fulfil low power consumption and multi‐functionality. Here, the synthesis of 2D non‐layered triangular and hexagonal magnetite (Fe 3 O 4 ) nanosheets are proposed with high T C and environmental stability, and demonstrate that the ultrathin triangular nanosheets show broad antiphase boundaries (bAPBs) and sharp antiphase boundaries (sAPBs), which induce multiple spin precession modes and multi‐level resistance. Conversely, the hexagonal nanosheets display slip bands with sAPBs associated with pinning effects, resulting in magnetic‐field‐driven spin texture reversal reminiscent of “0” and “1” switching signals. In support of the micromagnetic simulation, direct explanation is offer to the variation in multi‐level resistance under a microwave field, which is ascribed to the multi‐spin texture magnetization structure and the randomly distributed APBs within the material. These novel 2D magnetite nanosheets with unique spin textures and spin dynamics provide an exciting platform for constructing real multi‐level storage devices catering to emerging information storage and neuromorphic computing requirements.

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