更可靠地获得具有低阻尼和高自旋透明表面的 Y3Fe5O12 薄膜的策略

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY APL Materials Pub Date : 2024-08-01 DOI:10.1063/5.0202639
Yunfei Xie, Shuyao Chen, Yucong Yang, Dong Gao, Qiuli Chen, Ziyue Bi, Yuhang Liu, Lei Bi, Haiyuan Chen, Donghua Liu, Tao Liu
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引用次数: 0

摘要

本文报告了一种更可靠地获得溅射钇-铁-石榴石(YIG)薄膜的策略,这种薄膜同时具有低磁阻尼(α)和高自旋透明表面,这两项特性是应用于自旋电子设备的 YIG 薄膜最重要的特性。通过系统研究,我们总结出这一策略的两个关键点如下:对轻微富含 YIG 的靶材进行氧反应溅射,以避免铁成分的过全度,同时最大限度地降低氧空位密度;采用磷酸湿法蚀刻,以去除表面形成的不可避免的薄磁死层。30 纳米厚的高质量 YIG 薄膜证明了这一策略的可行性。该薄膜在 8 GHz 频率下的铁磁共振线宽仅为 3.4 Oe,α 仅为 4.6 × 10-4,而且表面具有极高的自旋透明性,在沉积了 3 nm 的铂层后,测得的自旋泵电压高达 650.1 µV。
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A strategy for more reliably obtaining Y3Fe5O12 thin films with both low damping and highly spin transparent surface
This paper reports a strategy for more reliably obtaining sputtered thin yttrium–iron–garnet (YIG) films possessing both low magnetic damping (α) and a highly spin transparent surface, which represent two of the most important properties for YIG films applied in spintronic devices. The two key points of this strategy, concluded from our systematical studies, are as follows: oxygen reactive sputtering of a slight Y-rich YIG target to avoid the over-stoichiometry of the Fe component and at the same time minimize oxygen vacancy density; and employing phosphoric acid wet etching to remove the inevitable thin magnetic dead layer formed on the surface. The feasibility of this strategy was proved by the achievement of a high quality 30 nm-thick YIG film. It possesses a ferromagnetic resonance linewidth of only 3.4 Oe at 8 GHz, α of only 4.6 × 10−4, and a very spin-transparent surface, as proved by the measured extremely large spin pumping voltage of 650.1 µV after depositing a 3 nm Pt layer.
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来源期刊
APL Materials
APL Materials NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
9.60
自引率
3.30%
发文量
199
审稿时长
2 months
期刊介绍: APL Materials features original, experimental research on significant topical issues within the field of materials science. In order to highlight research at the forefront of materials science, emphasis is given to the quality and timeliness of the work. The journal considers theory or calculation when the work is particularly timely and relevant to applications. In addition to regular articles, the journal also publishes Special Topics, which report on cutting-edge areas in materials science, such as Perovskite Solar Cells, 2D Materials, and Beyond Lithium Ion Batteries.
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