具有垂直各向异性的Co/Pt多层膜中各Co层之间铁磁性耦合
Ferromagnetic coupling between Co layers in Co/Pt multilayer with perpendicular anisotropy
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摘要: 主要研究了硼对低钴(质量分数小于5%)储氢合金电化学性能的影响,并设计了Mm (NiCoMnAlB)5+χ(χ=0.02,0.03,0.05,0.1,0.2,0.3)一系列非化学配分铸态合金成分.结果表明,硼的加入可以提高活性和高倍率性能,但降低合金的放电容量.微观分析可知,加入硼可形成第二相,提高活性和高倍率性能.同时利用MASTER软件对合金成分进行了优化,得出最佳合金成分Mm (NiCoMnAlB)5.1,预测出新合金成分Mm (NiCoMnAlB)5.08,并用实验方法验证了性能结果.Abstract: A series of glass/NiO(lnm)/Co(0.4nm)/Pt(0.5nm)3/Pt(xnm)/Co(0.4nm)/Pt(0.5 nm)3 samples with different Pt interlayer thicknesses were prepared by magnetron sputtering to determine the ferromagnetic coupling between Co layers across the Pt layer. The measured results of major and minor hysteresis loops show that the ferromagnetic coupling between the top and bottom Co/Pt multilayer decreases monotonously with the increase of Pt layer thickness and disappears as the Pt layer thickness over 4 nm. In addition to the ferromagnetic coupling, there exists a weak biquadratic coupling, which induces the broad transition of the bottom Co/Pt multilayer.