https://scholars.lib.ntu.edu.tw/handle/123456789/31991
標題: | 自發有序排列鐵、錳奈米顆粒/氧化鋁/鎳鋁合金(100)之磁性研究及鐵磁層覆蓋效應 Magnetic Properties of Self-Aligned Fe, Mn Nanoparticles and Fe Capped Mn Nanoparticles on Nanostructured Template Al2O3/NiAl(100) |
作者: | 顏宏聿 Yen, Hong-Yu |
關鍵字: | 鐵奈米顆粒;錳奈米顆粒;磁性;鐵磁覆蓋層;臺階狀磁滯曲線;Fe nanoparticle;Mn nanoparticle;magnetism;Fe capping layer;two-step hysteresis loop | 公開日期: | 2007 | 摘要: | Interest in magnetic nanoparticles has increased in the recent years due to the industrial applications such as the ultra-high density storage device and the fundamental interest in finite size effect. By naturally grown stripe structures with ~ 4 nm interdistance on the Al2O3 layer, Fe and Mn nanoparticles were prepared by self assembling. The surface morphology and magnetic properties were characterized by STM and MOKE, respectively. The 9~33 ML Fe and 0.1~16.9 ML Mn nanoparticles both reveal that the separation of particles decreases with increasing coverage. [1 ML is defined as the surface atom density: 1.54 × 10^15 at./cm2 on Cu(100).] The Fe nanoparticles are magnetic isotropic until 23 ML, and the twostep hysteresis loops of 23, 33 ML are ascribed to the uniaxial anisotropies with the higher order term along the stripe directions, which is supported by the Stoner-Wohlfarth simulation. Mn nanoparticles are proven to be non-ferromagnetic at 0.1~8.5 ML and there is no exchange bias with Fe capped on 3.4~16.9 ML Mn at our lowest accessible temperature ~ 130 K. For 17.6 ML Fe capped n ML Mn (n= 3.4~16.9), the drastic reduction of magnetic moments and the enhancement of coercivity were found at RT (room temperature), while at LT (150 K), the coercivity decreases unusually. The increasing roughness with increasing coverage of Mn and Fe-Mn interdiffusion account for the RT observations, and the temperature dependent reversed domain nucleation and domain wall pinning may be responsible for the LT behaviors. |
URI: | http://ntur.lib.ntu.edu.tw//handle/246246/54513 | 其他識別: | en-US |
顯示於: | 物理學系 |
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