Magnetic structure of Fe_(16)N_2 determined by polarized neutron diffraction on thin-film samples

Xudong Hang; Masaaki Matsuda; Jacob T. Held; K. Andre Mkhoyan; Jian-Ping Wang

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Magnetic structure of Fe_(16)N_2 determined by polarized neutron diffraction on thin-film samples

机译：Fe_（16）N_2的磁结构通过薄膜样品上的偏振中子衍射确定

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Strain-free Fe_(16)N_2 thin films were obtained on MgO (001) single-crystal substrates with Cr seed layers. X-ray diffraction and transmission electron microscopy confirmed that the film is textured in all three spatial directions with crystallographic orientation determined by epitaxial constraints from the substrate. Average grain size was estimated to be in the range of tens of nanometers. Ten pieces of 40-nm-thick Fe_(16)N_2 thin-film samples were stacked together for half-polarized neutron diffraction study at room temperature. A total of six reflections were usable, from which the magnetic structure of Fe_(16)N_2 was determined and compared to existing models. Contrary to most electronic structure calculations, the present results suggest that the magnetic moment of Fe atoms at the 8h site is large and larger than that of the 4d site. Our results support the giant magnetization of Fe_(16)N_2.

机译：在具有CR种子层的MgO（001）单晶衬底上获得无应变Fe_（16）N_2薄膜。 X射线衍射和透射电子显微镜证实，薄膜在所有三个空间方向上纹理地用来自基板的外延约束确定的晶体取向。估计平均晶粒尺寸在数十纳米的范围内。 10个40nm厚的Fe_（16）N_2薄膜样品堆叠在一起，用于在室温下进行半极化中子衍射研究。可以使用总共六个反射，从中测定FE_（16）N_2的磁结构并与现有模型进行比较。与大多数电子结构计算相反，本结果表明，8H位点的Fe原子的磁矩大于4D位点。我们的结果支持FE_（16）N_2的巨大磁化。

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《Physical review.B.Condensed matter and materials physics》 |2020年第10期|104402.1-104402.8|共8页
作者
Xudong Hang; Masaaki Matsuda; Jacob T. Held; K. Andre Mkhoyan; Jian-Ping Wang;
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Department of Chemical Engineering and Materials Science University of Minnesota Minneapolis. Minnesota 55455 USA;

Neutron Scattering Division Oak Ridge National Laboratory Oak Ridge Tennessee 37831 USA;

Department of Chemical Engineering and Materials Science University of Minnesota Minneapolis. Minnesota 55455 USA;

Department of Chemical Engineering and Materials Science University of Minnesota Minneapolis. Minnesota 55455 USA;

Department of Electrical and Computer Engineering University of Minnesota Minneapolis Minnesota 55455 USA Department of Chemical Engineering and Materials Science University of Minnesota Minneapolis Minnesota 55455 USA.;

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Magnetic structure of Fe_(16)N_2 determined by polarized neutron diffraction on thin-film samples

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