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High resolution magnetic force microscopy of patterned L1(0)-FePt dot arrays by nanosphere lithography

机译：通过纳米球光刻法对图案化的L1（0）-Fept点阵列进行高分辨率磁力显微镜检查

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High resolution magnetic force microscopy (MFM) has been carried out on L1(0)-FePt dot arrays patterned by plasma modified nanosphere lithography. An ex situ tip magnetization reversal experiment is carried out to determine the magnetic domains and verify the imaging stability of MFM and the mutual perturbations between the magnetic tip and the sample. We have identified that the critical size for the single domain region is about 90 nm across. Comparison with MFM image simulation also suggests that the magnetizations of the triangular dots in both single and double domain states are parallel to one edge of the dots, indicating the large uniaxial magnetocrystalline anisotropy of the L1(0)-FePt phase and the need for decreasing the magnetostatic energy.

机译：高分辨率磁力显微镜（MFM）已在等离子改性纳米球光刻图案化的L1（0）-FePt点阵列上进行。进行了异位尖端磁化反转实验，以确定磁畴并验证了MFM的成像稳定性以及磁尖端与样品之间的相互扰动。我们已经确定，单畴区域的临界尺寸约为90 nm。与MFM图像仿真的比较还表明，在单畴和双畴状态下，三角形点的磁化强度都平行于点的一个边缘，这表明L1（0）-FePt相的单轴磁晶各向异性大，需要降低静磁能。

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Zhong Hai; Tarrach Guido; Wu Peiwen; Drechsler Andreas; Wei Dan; Yuan Jun;
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年度 2008
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正文语种 en
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1. High resolution magnetic force microscopy of patterned L1(0)-FePt dot arrays by nanosphere lithography [J] . Zhong H, Tarrach G, Wu P, Nanotechnology . 2008,第9期

机译：纳米球光刻技术对图案化的L1（0）-FePt点阵列进行高分辨率磁力显微镜观察
2. High resolution magnetic force microscopy study of e-beam lithography patterned Co/Pt nanodots [J] . B. D. Belle, F. Schedin, N. Pilet, Journal of Applied Physics . 2007,第9Pt2期

机译：电子束光刻图案化Co / Pt纳米点的高分辨率磁力显微镜研究
3. Thermal stability of L1(0)-FePt nanodots patterned by self-assembled block copolymer lithography [J] . Fernandez Eduardo, Tu Kun-Hua, Ho Pin, Nanotechnology . 2018,第46期

机译：L1（0） - 由自组装嵌段共聚物光刻图案化的L1（0）的热稳定性
4. High resolution magnetic force microscopy study of e-beam lithography patterned Co/Pt nanodots [C] . B. D. Belle, F. Schedin, N. Pilet Joint MMM-Intermag Conference . 2007

机译：电子束光刻图案Co / Pt纳米蛋白的高分辨率磁力显微镜研究
5. Fabrication of uniform III-V quantum dot arrays with high throughput nanosphere lithography for device applications. [D] . Qian, Xifeng. 2009

机译：具有高通量纳米球光刻技术的均匀III-V量子点阵列的制造，用于设备应用。
6. Bi-Component Nanostructured Arrays of Co Dots Embedded in Ni80Fe20 Antidot Matrix: Synthesis by Self-Assembling of Polystyrene Nanospheres and Magnetic Properties [O] . Marco Coïsson, Federica Celegato, Gabriele Barrera, 2017

机译：Ni80Fe20 Antidot基质中嵌入的点的双组分纳米结构阵列：聚苯乙烯纳米球的自组装合成和磁性能
7. High resolution magnetic force microscopy study of e-beam lithography patterned Co∕Pt nanodots [O] . B. D. Belle, F. Schedin, N. Pilet, 2007

机译：电子束光刻图案化Copt纳米点的高分辨率磁力显微镜研究
8. Magnetic force microscopy of single-domain cobalt dots patterned using interference lithography [R] . Fernandez, A. , Bedrossian, P. J. , Baker, S. L. , 1996

机译：使用干涉光刻法图案化的单畴钴点的磁力显微镜

High resolution magnetic force microscopy of patterned L1(0)-FePt dot arrays by nanosphere lithography

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