物理学报2016,Vol.65Issue(21):217501-1-217501-9,9.DOI:10.7498/aps.65.217501
具有条纹磁畴结构的NiFe薄膜的制备与磁各向异性研究∗
Preparation and magnetic anisotropy of NiFe film with strip e domains
摘要
Abstract
Magnetic anisotropy is one of the most important fundamental properties of magnetic film. For the high-frequency applications, the magnetic anisotropy determines the ferromagnetic resonance frequency of magnetic film. Due to the directionality of conventional static magnetic anisotropy in magnetic film, the high-frequency device usually exhibits a remarkable angular dependent behavior. Only when the microwave magnetic field is perpendicular to the magnetic anisotropy, can the device work at the best performance. The magnetic film with a thickness beyond a critical value displays a stripe domain structure as well as an in-plane rotatable magnetic anisotropy, which can be an important strategy to solve the problem of magnetic field orientation dependent performance in high-frequency device. Thus, the fabrication, the magnetic anisotropy, the magnetic domain and the high-frequency behavior for magnetic film with stripe domain structure have received extensive attention. Previously, a lot of studies have qualitatively indicated that the different fabrication processes could change the critical thickness values of displaying stripe domains, the magnetic domains, and the magnetic anisotropies in many magnetic films. However, the quantitative investigation, especially regarding the magnetic anisotropy which determines the high-frequency behaviors of magnetic films, is less. NiFe alloys display excellent soft magnetic properties, which have been extensively applied to various spintronic devices. In addition, the stripe magnetic domain is discovered for the first time in NiFe film. In this work, we fabricate NiFe magnetic thin films by using radio frequency magnetron sputtering technique at room temperature and quantitatively study the effects of film thickness, sputtering power density and Ar pressure on the magnetic domain structure, in-plane static magnetic anisotropy, in-plane rotatable magnetic anisotropy and out-of-plane magnetic anisotropy. For NiFe films fabricated at a power density of 15.6 W/cm2 and an Ar pressure of 2 mTorr (1 Torr=1.33322 × 102 Pa), the critical thickness values for the appearance of stripe domain structures in NiFe films are between 250 and 300 nm. The out-of-plane magnetic anisotropy field of 300 nm NiFe film is nearly twice as that of 250 nm NiFe film, which gives rise to the occurrence of stripe domain structure as well as the in-plane rotatable magnetic anisotropy. The high sputtering power density couldreduce the critical thickness for the occurrence of stripe domains. For 300 nm NiFe film fabricated at a power density of 15.6 W/cm2, with Ar pressure increasing from 2 to 9 mTorr, the out-of-plane magnetic anisotropy field increases from 1247.8 to 3248.0 Oe (1 Oe = 79.5775 A/m) and the in-plane rotatable magnetic anisotropy field increases from 72.5 to 141.9 Oe. Meanwhile, the stripe magnetic domain structure changes from well aligned to disordered state, and the corresponding wavelength of stripe domain is reduced from 0.53 to 0.24 µm. The cross-sectional characterizations of NiFe film indicate that the formation of columnar structure produces an out-of-plane magnetic anisotropy, giving rise to the appearance of stripe magnetic domain structures. The low Ar pressure is in favor of the formation of columnar structure in magnetic film under the high sputtering power density, which gives rise to the appearance of well aligned stripe magnetic domains. However, the high Ar pressure leads to a fibrous columnar structure, which enhances the out-of-plane magnetic anisotropy and reduces the critical thickness for the occurrence of stripe domains. Our investigation provides an important reference to fabricating magnetic films and controlling their static and rotatable magnetic anisotropies for the application in high-frequency devices.关键词
转动磁各向异性/条纹磁畴/铁磁共振Key words
rotatable magnetic anisotropy/stripe domains/ferromagnetic resonance引用本文复制引用
李金财,詹清峰,潘民杰,刘鲁萍,杨华礼,谢亚丽,谢淑红,李润伟..具有条纹磁畴结构的NiFe薄膜的制备与磁各向异性研究∗[J].物理学报,2016,65(21):217501-1-217501-9,9.基金项目
国家自然科学基金(批准号:11374312,51525103,51522105,11372268)、国家重点研发项目(批准号:2012CB933004,2016YFA0201102)、中国科学院重点部署项目(批准号:KJZD-EWM05)、湖南省杰出青年基金(批准号:13JJ1019)和宁波市科技创新团队(批准号:2015B11001)资助的课题 (批准号:11374312,51525103,51522105,11372268)
