磁场感应制备镍纳米线阵列磁性的实验与微磁学研究

INTERMAG Asia 2005. Digests of the IEEE International Magnetics Conference, 2005. Pub Date : 2005-04-04 DOI:10.1109/INTMAG.2005.1464114

F. Tian, D. Wei, Jing Zhu

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引用次数: 0

摘要

外磁场感应直流电沉积制备高性能镍纳米线阵列的新方法。通过微磁模拟研究了阵列的磁性能。镍纳米线的电沉积是在双电极电沉积池中进行的。沉积电流恒定为2 A/dm/sup 2/，沉积时间为5 min，沿导线施加与对电极方向平行的3000 Oe磁场。TEM照片显示纳米线长600 nm，呈多晶状。在外加磁场作用下制备的Ni纳米线的M-H环的垂直度为0.88，矫顽力为690 Oe。微磁模拟结果表明，形状各向异性场对纯Ni伸长磁性晶粒的磁性能起主导作用。模拟的磁滞回线与实测的磁滞回线吻合较好。

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Experimental and micromagnetics studies on magnetism of Ni nanowire arrays prepared with magnetic field induction

A new way to make high performance Ni nanowire arrays with external magnetic field inducing DC electrodeposition. The magnetic properties of the arrays are also studied by micromagnetic simulations. The electrodeposition of Ni nanowires is carried out in a two electrode electrodeposition pool. The deposition current is kept constant at 2 A/dm/sup 2/ with deposition time of 5 min and a 3000 Oe magnetic field along the wires is exerted parallel to the counter electrode direction. TEM photograph shows the nanowires are 600 nm long and polycrystalline. M-H loops for the Ni nanowires prepared with a magnetic field applied determine the squareness of 0.88 and coercivity of 690 Oe. Results of micromagnetic simulations show that the shape anisotropy field is dominant for the magnetic properties of a pure Ni elongated magnetic grain. Also, the simulated hysteresis loops agree quite well with the measured loops.

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来源期刊

INTERMAG Asia 2005. Digests of the IEEE International Magnetics Conference, 2005.

CiteScore

0.50

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0.00%

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