排序方式: 共有5条查询结果,搜索用时 15 毫秒
1
1.
在多孔阳极氧化铝(AAO)模板中, 采用电化学方法制备出α-铁纳米线阵列复合膜. 用透射Mössbauer谱(MS)、内转换电子Mössbauer 谱(CEMS)和微磁学模拟对直径为60 nm的α-铁纳米线阵列进行了内部和端面磁矩分布的研究. 透射Mössbauer 谱的结果表明, α-铁纳米线阵列内部磁矩很好地平行于纳米线长轴方向, 而内转换电子 Mössbauer 谱观察表明, 位于纳米线阵列端面, 磁矩偏离纳米线的长轴方向分布, 由二、五峰的强度计算出平均偏角为24.0°. 另外, 用微磁学模拟方法对不同深度的磁矩分布做了数值统计, 结果表明, 在纳米线内部磁矩严格地平行于纳米线轴, 越趋近两端, 平均磁矩与纳米线轴的夹角越大. 磁性测量结果表明α-铁纳米线阵列宏观磁性表现出很强的磁各向异性. 相似文献
2.
α-Fe nanowire array has been electrodeposited into anodic aluminum oxide template. The magnetic moment distributions, in the interior and near the extremities of α-Fe nanowire with 60 nm in diameter, have been studied by means of transmission Mossbauer spectroscopy (MS), conversion electron Mossbauer spectroscopy (CEMS) and micromagnetic simulation. Transmission Mossbauer spectrum (MS) shows that the magnetic moments, inside the α-Fe nanowire array, are well parallel to nanowire, while conversion electron Mossbauer spectrum (CEMS) reveals that the magnetic moments, near the extremities of nanowire, diverge from the long axis of wire, and the average diverging angle calculated by the intensity ratio ofthe 2,5 peaks is about 24.0°. Moreover, the magnetic moment distributions of different depths to the top of wire are counted using micromagnetic simulation, which indicates that, the interior magnetic moments are strictly parallel to nanowire, and the closer the magnetic moment to the top of wire, the larger the diverging angle. Magnetic measurement shows that this α-Fe nanowire array represents a strong magnetic anisotropy. 相似文献
3.
With the developing requirement of magnetic recording density, perpendicular magnetic re-cording is an important approach and attracts considerable interest[1,2]. In perpendicular magnetic recording technology, it is expected that the preferred direction of magnetization and magnetic moments are perpendicular to the disk, high remanence, high coercivity and small size are also demanded for the magnetic recording elements[3]. Recently, people have electrodeposited mag-netic metal nanowires into… 相似文献
4.
5.
1