1) Magnetic force miscroscopy (MFM)
磁场力显微镜(MFM)
2) magnetic force microscope(MFM)
磁力显微镜(MFM)
3) MFM
磁力显微镜
1.
Study on the effect of oblique sputtering on TbFe thin films by MFM;
利用磁力显微镜研究倾斜溅射对TbFe薄膜磁性能的影响
2.
Through the sample surface analysis by Atomic Force Microscope (AFM) and Magnetic Force Microscope (MFM), it is showed that the condition of annealing will effect the distribution of the grain in sample.
利用原子力显微镜和磁力显微镜对样品的表面进行分析,发现退火条件会影响样品磁性粒子的分布。
3.
In this paper, the using of Magnetic Force Microscopic (MFM) was introduced andthe transformations of magnetic domains were investigated by MFM.
本论文的工作主要分为两个方面:对磁力显微镜及其检测方法本身的研究和使用磁力显微镜研究薄膜磁畴结构的变化。
4) magnetic force microscopy
磁力显微镜
1.
It is analysed using magnetic force microscopy in this paper,and the result of magnetic force image ( MFI) shows that the sample induces a hard magnetic R_2M_(14)B(M=Fe or Co,R=Nd or Dy) phase after annealing.
5B20条带,运用磁力显微镜(MFM)的方法对该合金进行分析,从所得磁力图中看到试样退火后在基体上会析出一定量的硬磁相R2M14B(M=Fe或Co,R=Nd或Dy),其磁畴尺寸范围为200~500nm,磁畴尺寸远大于晶粒尺寸,磁畴跨越许多晶粒,即出现交换作用畴结构。
2.
The magnetic tips dependence of the magnetic domains in low coercivity magnetic (YGdBi)3(GaFe)_5O_12 garnet was investigated using magnetic force microscopy.
本文采用磁力显微镜(MFM)对磁性石榴石(YGdBi)3(GaFe)5O12薄膜的磁畴结构进行了观察研究。
3.
The magnetic tips dependence of the magnetic domains in low coercivity magnetic(YGdBi)_3(GaFe)_5O_(12) garnet was investigated using magnetic force microscopy.
本文采用磁力显微镜(MFM)对磁性石榴石(YGdBi)_3(GaFe)_5O_(12)薄膜的磁畴结构进行了观察研究。
5) magnetic force microscope
磁力显微镜
1.
Preparation of nickel tips used in magnetic force microscope;
磁力显微镜中镍针尖的制备
2.
Progress in magnetic functional materials and applications in 1997~1998 is described, viz: (1) amorphous and nano crystalline soft magnetic materials; (2) new magnetic effects and new magnetic functional materials; (3) magnetic resonance imaging of electrical activity in the living body; (4) new application of magnetic force microscope; (5) progress in the study of magnetic levitation trains.
这些新进展包括:(1)非晶和纳米晶软磁材料;(2)新的磁效应与新的磁性功能材料;(3)磁共振成象在显示生物活体电性等上的应用;(4)磁力显微镜的新应用;(5)磁浮火车从研究、试验和走向应用。
6) magnetic microscope
磁显微镜
补充资料:显微镜19世纪中期的显微镜
[图]
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条