1) FeCuNbCrSiB/Cu/FeCuNbCrSiB sandwich films
FeCuNbCrSiB/Cu/FeCuNbCrSiB三明治薄膜
2) FeNi/Cu/FeNi sandwiched films
FeNi/Cu/FeNi三明治薄膜
3) sandwich thin films
三明治薄膜
1.
Giant magneto-impedance effect in CoFeSiB/Cu/CoFeSiB sandwich thin films with a meander line structure;
曲折状CoFeSiB三明治薄膜及其巨磁阻抗效应
4) sandwich structured film
三明治结构薄膜
1.
A model of Giant Magneto-Impedance (GMI) effect for sandwich structured films consisting of two soft magnetic layers and an inner nonmagnetic metal layer was proposed, the GMI effect was investigated theoretically.
本文建立了一个两层软磁材料的中间夹一层非磁性金属的三明治结构薄膜的物理模型,从理论上研究其巨磁阻抗效应。
5) sandwiched films
三明治膜
1.
Influence of TbDyFe film on giant magnetoimpedance in sandwiched films;
TbDyFe薄膜对三明治膜巨磁阻抗效应的影响
2.
The Fe_(88)Zr_7B_5 based single layered films and sandwiched films using Ag as central layer prepared by radio frequency sputtering at different condition of fabricating were investigated.
本论文首次系统研究了掺杂Nb、Ni、Cu对Fe_(88)Zr_7B_5基软磁合金薄膜材料的巨磁阻抗效应和磁特性的影响;分析研究了不同工艺制备的FeZrB系合金薄膜的微观结构、磁特性和GMI效应;同时还研究了单层膜和Ag夹层三明治膜的巨磁阻抗效应。
6) sandwiched film
三明治膜
1.
The magnetic anisotropic effect on giant magnetoimpedance in sandwiched films;
各向异性场对三明治膜巨磁阻抗效应的影响
2.
The first model is a coaxial-cable wire composed of copper cylindrical wire electroplated with a soft magnetic layer, and the second is a sandwiched film structured by two soft magnetic layers, within which Cu or Ag serves as the central layer.
根据两种具有巨磁阻抗 (GMI)效应的磁性材料实验样品 ,提出了两种理论模型 (同轴电缆结构———Cu丝外覆软磁材料的圆柱形 ;三明治结构———Cu或Ag为中间层外包软磁层的三明治膜 ) ,利用Maxwell方程和Landau_Lifshitz方程对其GMI效应的机理进行了理论研究 。
3.
The Sandwiched films manifest notable GMI effect in low frequency value; and high sensitivity, small volume, fast response are better than GMR effect.
本文分别用直流磁控溅射法和真空蒸镀法制备了超坡莫合金三明治膜NiFeSiMoMn/Cu/NiFeSiMoMn(上下两层为NiFeSiMoMn的软磁材料,中间为Cu导电层): 用直流磁控溅射法制备的样品每层厚均为2。
补充资料:A1-Cu-Co合金中十次对称准晶单晶体及其衍射图
A1-Cu-Co合金中十次对称准晶单晶体及其衍射图
‘ Al Cu—Co合金中十次对称准晶堕晶体e1)及其衍射圈(z) 中国科学盹垒禹研览听供稿
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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