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机构地区:[1]电子科技大学微电子与固体电子学院纳米技术中心,四川成都610054
出 处:《电子显微学报》2005年第2期91-94,共4页Journal of Chinese Electron Microscopy Society
基 金:国家重点基础研究发展计划51310资助项目.
摘 要:磁力显微镜(MFM)作为研究表面磁结构的有力工具已广泛应用于磁性薄膜的研究。TbFe磁致伸缩薄膜在实际应用中要求易磁化轴平行于膜面,以获得较低的面内饱和场Hs。传统的成膜技术难以实现这一目标,采用倾斜溅射方法制备TbFe薄膜可有效降低面内饱和场Hs。通过测量样品的磁滞回线可以发现,易磁化轴随着溅射角度的增加逐渐偏离样品的法线方向,而取向于平行膜面。本研究工作利用MFM研究了不同溅射角度得到的TbFe薄膜的磁畴结构。发现薄膜的磁畴结构随着溅射角度的增加逐渐由垂直畴转化为水平畴,与磁滞回线测量得到的易磁化轴方向发生偏转的结果相吻合。Magnetic force microscopy(MFM) is a powerful technique in the research of the surface domains and used to study the soft magnetic sample. TbFe thin film is magnetostrictive, and has been widely used. To fulfill the practical requirement, its easy-axis of magnetization should be parallel to the film surface to reduce the in-plane saturation field H_S. The oblique sputtering technology has been applied in fabrication of TbFe thin film to reduce the H_S. The magnetic hysteresis loop of obliquely deposited TbFe films was measured,and shows that, with the increasing of the deposition angle, the easy-axis of magnetization was deflected rather than being vertical to the film. Magnetic domains of the TbFe films with different deposition angles were studied by magnetic force microscopy. The results indicate that the easy direction of magnetization was changed from out-of-plane to in-plane by obliquely deposition. It is consistent with the result that the easy-axis of magnetization would switch, measured by means of magnetic hysteresis loop.
关 键 词:磁力显微镜 溅射 磁性能 易磁化轴 磁致伸缩薄膜 磁滞回线测量 磁畴结构 表面磁结构 磁性薄膜 成膜技术 法线方向 研究工作 射角 MFM 膜面 平行 应用 饱和 面内 样品
分 类 号:TB34[一般工业技术—材料科学与工程]
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