| 1. | Developments of research on fept magnetic thin film
磁性薄膜的研究进展 |
| 2. | The present and future of magnetic thin films
磁性及巨磁电阻的影响 |
| 3. | Cellular automata simulation of magnetic thin film growth process
磁性薄膜生长的元胞自动机模拟 |
| 4. | Progress in the microwave magnetic properties of soft magnetic thin films
软磁性薄膜微波磁特性的研究进展 |
| 5. | Magnetic thin film storage
磁性薄膜存储器 |
| 6. | For magnetic thin films , the magnetic axis is in the longitudinal direction , where kerr effect is obvious
对于很多磁性薄膜,易磁轴方向为纵向,通常纵向克尔效应较明显。 |
| 7. | Secondly , we have studied the properties of the conbzr high frequency soft - magnetic thin film , and use the dc magnetron sputtering system by conquering the key technology to fabricate double - sides thin - film inductors on 10mm * 10mm printed circuit board and 20mm * 20mm ceramic board
再次,研究了薄膜电感所使用的conbzr高频软磁薄膜材料的性能,并利用真空磁控溅射设备,克服各种关键技术及工艺难度,在10mm 10mm的pcb板、 20mm 20mm陶瓷基片上制作了薄膜电感。 |
| 8. | The distribution of magnetic field in a permanent magnetic thin film array is investigated by analytical calculations in this thesis . theoretically , the effects of the size of array units and of the distance between them are calculated , especially the contribution of adjoining array units
本文利用磁场解析计算方法研究了永磁薄膜阵列的磁场分布,理论上计算了薄膜阵列单元的尺寸和间距对永磁薄膜阵列工作点的影响规律,计算了周围阵列单元对中心单元工作点的影响。 |
| 9. | Based on the theoretical calculation and the magnetic performance index , so - called " effective magnetization intensity " , an optimized scheme for a permanent magnetic thin film array is proposed , which is " given 10 m thickness film , the optimized size of the units is 40 m 40 m , while the distance between them is 10 m " finite element methods is employed to characterize the magnetic properties of a permanent magnetic thin film array with magnetic anisotropy
在此基础上,按照永磁薄膜阵列的“有效磁化强度”磁性能优化指标,求出了一个较理想的永磁薄膜阵列设计方案:对10微米厚的永磁薄膜,阵列单元为40 m 40 m ,间距为10 m 。本文利用有限元分析方法初步研究了各向异性永磁薄膜阵列的磁性能,得到了关于永磁薄膜阵列的磁化特征,验证了解析计算采用的均匀磁化假设的合理性,同时分析了磁场中永磁薄膜受到的磁力与薄膜厚度的变化关系。 |
