Ni_(80)Fe_(20)镀层对Fe_(73.5)Cu_1Nb_3Si_(13.5)B_9非晶条带磁阻抗效应的影响(英文)

Magneto-impedance effect of amorphous Fe_(73.5)Cu_1Nb_3Si_(13.5)B_9 ribbons with Ni_(80)Fe_(20)permalloy film

采用磁控溅射镀膜工艺,在Fe_(73.5)Cu_1Nb_3Si_(13.5)B_9非晶条带的光滑面上溅射了130~650 nm厚的Ni_(80)Fe_(20)薄膜,制备了一系列Ni_(80)Fe_(20)/Fe_(73.5)Cu_1Nb_3Si_(13.5)B_9复合结构样品.研究了镀层厚度对材料的镀层形貌、巨磁阻抗效应(Giant Magneto-Impedance,GMI)和磁滞回线的影响.结果发现,镀层厚度为260 nm厚时,样品的表面形貌最平整致密,最大磁阻抗比提高到33.0%.在玻璃基片上溅射了相同厚度的系列Ni_(80)Fe_(20)薄膜,其磁滞回线结果发现薄膜的各向异性方向随着厚度的增加由平行表面转变成垂直于表面.正是Ni_(80)Fe_(20)镀层各向异性的方向改变,影响了镀层与条带间的相互作用,进而影响复合结构样品的磁阻抗效应.

Different thickness of Ni80Fe20 films are deposited on the Fe73.5Cu1Nb3Si13.5B9 amorphous ribbons using RF（radio frequency） magnetron sputtering method.The magnetic properties and magneto impedance effect axe measured and compared with as-cast Fe73.5Cu1Nb3Si13.5B9 amorphous ribbons.The results show that the ribbon coated with260 nm Ni80Fe20 layer achieves a much better performance than others,which produces a GMI（giant magneto-impedance） ratio of 33.0%.It is found that the surface of 260 nm Ni80Fe20 layer is smoother and the particle size is relatively smaller.The hysteresis loops of the ribbons with and without Ni80Fe20 coating layer are almost unchanged.However,the hysteresis loops of the Ni80Fe20 films sputtered onto glass substrate indicate the shift of anisotropy direction from parallel to normal to the surface as the thickness increases.The shifting will influence the magnetic exchange interaction between the amorphous ribbons and the Ni80Fe20 coating layers.The variation of GMI effect can be interpreted by the surface structure and magnetic exchange interaction.