Improvement of the uniformity and dipole ferromagnetism in Co nanodots assemblies on Pb/Si(111) via step tuned dimensionality variation

Fang Y.-P.; He W.; Du H.-F.; Liu H.-L.; Wu Q.; Zhang X.-Q.; Yang H.-T.; Cheng Z.-H.; Shen J.

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Improvement of the uniformity and dipole ferromagnetism in Co nanodots assemblies on Pb/Si(111) via step tuned dimensionality variation

机译：通过逐步调谐的尺寸变化改进Co纳米点在Pb / Si（111）上的均匀性和偶极铁磁性

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We fabricated quasi-one-dimensional Co nanochain assemblies and two-dimensional Co nanodot assemblies on Pb/Si(111) substrates by step decoration. The morphology and magnetic properties of these two kinds of Co nanodot assemblies were investigated by in situ scanning tunneling microscopy and magneto-optical Kerr effect measurements. It was found that the steps cannot only improve the uniformity of the Co nanodots, but also increase the critical temperature T_c. Monte Carlo simulation indicates that the ferromagnetism mainly originates from the dipolar interactions and the critical temperature T_c can be enhanced by introducing an in-plane uniaxial magnetic anisotropy via the step tuned dimensionality variation of the nanodot assemblies.

机译：通过逐步装饰，我们在Pb / Si（111）基板上制造了准一维Co纳米链组件和二维Co纳米点组件。通过原位扫描隧道显微镜和磁光克尔效应测量研究了这两种钴纳米点组件的形貌和磁性。发现这些步骤不仅可以改善Co纳米点的均匀性，而且可以提高临界温度T_c。蒙特卡洛模拟表明，铁磁性主要来自偶极相互作用，并且通过纳米点组件的阶跃尺寸变化引入平面内单轴磁各向异性可以提高临界温度T_c。

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《Nanotechnology》 |2010年第46期|共7页
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Fang Y.-P.; He W.; Du H.-F.; Liu H.-L.; Wu Q.; Zhang X.-Q.; Yang H.-T.; Cheng Z.-H.; Shen J.;
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1. Improvement of the uniformity and dipole ferromagnetism in Co nanodots assemblies on Pb/Si(111) via step tuned dimensionality variation [J] . Fang Y.-P., He W., Du H.-F., Nanotechnology . 2010,第46期

机译：通过逐步调谐的尺寸变化改进Co纳米点在Pb / Si（111）上的均匀性和偶极铁磁性
2. Epitaxial inversion on ferromagnetic (Fe,Zn)3O4 /ferroelectric BiFeO3 core-shell nanodot arrays using three dimensional nano-seeding assembly [J] . Sakamoto Takuya, Okada Koichi, Hattori Azusa N., Journal of Applied Physics . 2013,第10期

机译：利用三维纳米晶种组装法对铁磁（Fe，Zn） 3 O 4 /铁电BiFeO 3 核-壳纳米点阵列进行外延反转
3. Epitaxial inversion on ferromagnetic (Fe,Zn)_3O_4/ferroelectric BiFeO_3 core-shell nanodot arrays using three dimensional nano-seeding assembly [J] . Takuya Sakamoto, Koichi Okada, Azusa N. Hattori, Journal of Applied Physics . 2013,第10期

机译：使用三维纳米种子组装的铁磁（Fe，Zn）_3O_4 /铁电BiFeO_3核-壳纳米点阵列的外延反转
4. Improvement of CD uniformity with PBS by optimizing the crossover development step [C] . Robert L. Dean, Etec Systems, Inc., 16th Annual BACUS Symposium on Photomask Technology and Management . 1996

机译：通过优化交叉开发步骤，用PBS改善CD均匀性
5. Use of Spatially Non-Uniform Electric Fields for Contact-Free Assembly of Three-Dimensional Structures from Colloidal Particles. [D] . Wood Jeffery A. 2012

机译：空间非均匀电场用于胶体粒子三维结构的无接触组装。
6. Temperature-Controlled Assembly/Reassembly of Two Dicarboxylate-Based Three-Dimensional Co(II) Coordination Polymers with an Antiferromagnetic Metallic Layer and a Ferromagnetic Metallic Chain [O] . Hui-Chen Yu, Chin-Hsuan Lin, Chen-I Yang 2019

机译：两种具有反铁磁金属层和铁磁金属链的基于二羧酸酯的三维Co（II）配位聚合物的温度控制组装/重组
7. Field-induced ferromagnetic phase transition in two-dimensional Fermi systems with magnetic dipole-dipole interaction [O] . G. H. Bordbar, F. Pouresmaeeli, A. Poostforush 2018

机译：具有磁性偶极 - 偶极交互的二维FERMI系统中的现场诱导的铁磁相转变

Improvement of the uniformity and dipole ferromagnetism in Co nanodots assemblies on Pb/Si(111) via step tuned dimensionality variation

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