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Magnetic anisotropy in spherical Fe16N2 core–shell nanoparticles determined by torque measurements

机译：球形Fe16N2核壳纳米粒子的磁各向异性通过扭矩测量确定

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摘要

The magnetic anisotropy energy for core–shell α”-Fe16N2 nanoparticles was evaluated by the rotational hysteresis loss obtained from magnetic torque measurements. The saturation magnetization of the α”-Fe16N2 core was deduced from volume fractions of α”-Fe16N2 determined by an analysis of a low-temperature Mossbauer spectrum. The saturation magnetization and the anisotropy energy were found to be 234 emu/cc and 6.9 Merg/cm3, respectively. These values coincide with those of bulk-like single-phase α”-Fe16N2 particles. This crystalline anisotropy is still smaller than the shape anisotropy of the thin films (2πMs2=20Merg/cm3), and a perpendicular magnetic state is not expected for the thin-film form.

机译：核-壳α” -Fe16N2纳米颗粒的磁各向异性能通过磁转矩测量获得的旋转磁滞损耗进行评估。由通过分析低温Mossbauer光谱确定的α” -Fe16N2的体积分数推导出α” -Fe16N2芯的饱和磁化强度。饱和磁化强度和各向异性能分别为234 emu / cc和6.9 Merg / cm3。这些值与块状单相α” -Fe16N2颗粒的值一致。该结晶各向异性仍然小于薄膜的形状各向异性（2πMs2＝ 20Merg / cm3），并且对于薄膜形式不期望垂直的磁态。

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Kita Eiji; Shibata Kenichi; Sasaki Yuji; Kishimoto Mikio; Yanagihara Hideto;
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年度 2017
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1. Magnetic anisotropy in spherical Fe16N2 core–shell nanoparticles determined by torque measurements [J] . Eiji Kita, Kenichi Shibata, Yuji Sasaki, AIP Advances . 2017,第5期

机译：球形Fe16N2核 - 壳纳米粒子中的磁各向异性通过扭矩测量确定
2. Preparation and characterization of magnetic films of well-dispersed single domain of core-shell alpha ''-Fe16N2/Al2O3 nanoparticles [J] . Suhendi Asep, Kartikowati Christina Wahyu, Zulhijah Rizka, Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan . 2015,第6期

机译：核-壳型α''-Fe16N2 / Al2O3纳米颗粒均匀分散的单畴磁性膜的制备与表征
3. Low-Energy Bead-Mill Dispersion of Agglomerated Core-Shell alpha-Fe/Al2O3 and alpha ''-Fe16N2/Al2O3 Ferromagnetic Nanoparticles in Toluene [J] . Zulhijah Rizka, Suhendi Asep, Yoshimi Kazuki, Langmuir: The ACS Journal of Surfaces and Colloids . 2015,第22期

机译：凝聚的核-壳α-Fe/ Al2O3和α''-Fe16N2 / Al2O3铁磁纳米粒子在甲苯中的低能珠磨分散
4. A core-shell-surface layer model to explain the size dependence of effective magnetic anisotropy in magnetic nanoparticles [C] . Sobhit Singh, Kelly L. Pisane, Mohindar S. Seehra International Conference on Nanotechnology . 2017

机译：核-壳-表面层模型，用于解释磁性纳米粒子中有效磁各向异性的尺寸依赖性
5. Synthesis and luminescence properties of core-shell structured (lanthanum(1-x)europium(x))(2)zirconium heptoxid[at]yttrium orthoborate spherical nanoparticles. [D] . Alaparthi, Suresh Babu. 2012

机译：核-壳结构的（he（x）镧（1-x）eur（x））（2）氧化锆原硼酸钇球形纳米颗粒的合成和发光特性。
6. Determination of Magnetic Parameters of Maghemite (γ-Fe2O3) Core-Shell Nanoparticles from Nonlinear Magnetic Susceptibility Measurements [O] . Ihor I. Syvorotka, Lyubomyr P. Pavlyk, Sergii B. Ubizskii, 2017

机译：通过非线性磁化率测定确定磁赤铁矿（γ-Fe2O3）核壳纳米粒子的磁参数
7. Magnetic anisotropy in spherical Fe16N2 core–shell nanoparticles determined by torque measurements [O] . Eiji Kita, Kenichi Shibata, Yuji Sasaki, 2017

机译：球形Fe16N2核 - 壳纳米粒子的磁各向异性由扭矩测量确定

Magnetic anisotropy in spherical Fe16N2 core–shell nanoparticles determined by torque measurements

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