Microscopic magnetic structuring of a spin-wave waveguide by ion implantation in a Ni<inf>81</inf>Fe<inf>19</inf> layer

Obry Bjorn; Meyer Thomas; Pirro Philipp; Bracher Thomas; Lagel Bert; Osten Julia; Strache Thomas; Fassbender Jurgen; Hillebrands Burkard

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Microscopic magnetic structuring of a spin-wave waveguide by ion implantation in a Ni81Fe19 layer

机译：Ni 81 Fe 19 层中离子注入对自旋波波导的微观磁结构

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We investigate the spin-wave excitation in microscopic waveguides fabricated by localized face='roman'>Cr+ ion implantation in a ferromagnetic Ni₈₁Fe₁₉ film. We demonstrate that spin-wave waveguides can be conveniently made by this technique. The magnetic patterning technique yields an increased damping and a reduction in saturation magnetization in the implanted regions that can be extracted from Brillouin light scattering measurements of the spin-wave excitation spectra. Furthermore, the waveguide performance as well as the internal field of the waveguide depend on the doping fluence. The results prove that localized ion implantation is a powerful tool for the patterning of magnon spintronic devices.

机译：我们研究了在铁磁Ni _{中局部注入 face ='roman'> Cr + 离子注入制造的微观波导中的自旋波激发81 Fe _{19 膜。我们证明了通过该技术可以方便地制造自旋波波导。磁性图案化技术可从注入区域的自旋波激发光谱的布里渊光散射测量结果中提取出更大的阻尼，并降低饱和磁化强度。此外，波导的性能以及波导的内部场取决于掺杂量。结果证明，局部离子注入是用于强子自旋电子器件构图的强大工具。}}

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来源
《Applied Physics Letters》 |2013年第2期|p.1-4|共4页
作者
Obry Bjorn; Meyer Thomas; Pirro Philipp; Bracher Thomas; Lagel Bert; Osten Julia; Strache Thomas; Fassbender Jurgen; Hillebrands Burkard;
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作者单位

Fachbereich Physik and Forschungszentrum OPTIMAS, Technische Universität Kaiserslautern, D-67663 Kaiserslautern, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Brillouin spectra; chromium; damping; doping; ferromagnetic materials; ion implantation; iron alloys; magnetic structure; magnetic thin films; magnetisation; metallic thin films; nickel alloys; spin waves; 7525-j; 7530Ds; 7550Bb; 7560Ej; 7570Ak; 7835+c;

机译：布里渊光谱铬;阻尼掺杂铁磁材料离子注入铁合金磁性结构磁性薄膜磁化强度金属薄膜;镍合金;自旋波7525-j;7530Ds;7550Bb;7560Ej;7570Ak;7835 + c;

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机译：微观结构上的数据集Ni 50 Mn 38 Sb 9 Si 3 合金和Ni的组成 50 Mn < ce：inf loc =“ post”> 38 Sb 12？ x Si x （ x = 2.5，3）铁磁形状记忆合金
2. Magnetic and microwave properties of SrFe 12O 19/MCe 0.04Fe 1.96O 4 (M = Cu, Ni, Mn, Co and Zn) hard/soft nanocomposites [J] . N.A. Algarou, Y. Slimani, M.A. Almessiere, Journal of Materials Research and Technology . 2020,第3期

机译：SRFE的磁性和微波特性 12 O 19 / MCE 0.04 FE 1.96 O 4 （m = ，Ni，Mn，Co和Zn）硬/柔软纳米镜
3. 2O 3 coating on Li 1.256Ni 0.198Co 0.082Mn 0.689O 2.25 with spinel-structure interface layer for superior performance lithium ion batteries]]> [J] . Xiaofeng Wen, Kui Liang, Lingyun Tian, Electrochimica Acta . 2018,第期

机译：“”帖子“> 1.256 NI 0.198 CE：INF LOC =”POST“> 0.082 MN <以下是什么： INF PLACE =“POST”> 0.689 O 2.25 具有尖晶石结构界面层，用于卓越的性能锂离子电池]]]>
4. Structural and magnetic properties of Ni0.5−Xmgxcu0.05Zn0.45Fe2O4 ferrites for multilayer chip inductor applications [C] . Sujatha Ch., Venugopal Reddy K., Sowri Babu K., Nanoscience, Engineering and Technology (ICONSET), 2011 International Conference on . 2011

机译：Ni 0.5−X mg x cu 0.05 Zn 0.45 Fe 2 O 4 铁氧体
5. Characterization of INF56, a gene expressed during infection structure development of the bean rust fungus, Uromyces appendiculatus. [D] . Xuei, Xiaoling. 1991

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6. Controlled Biomineralization of Magnetite (Fe(inf3)O(inf4)) and Greigite (Fe(inf3)S(inf4)) in a Magnetotactic Bacterium [O] . D. A. Bazylinski, R. B. Frankel, B. R. Heywood, 1995

机译：趋磁细菌中磁铁矿（Fe（inf3）O（inf4））和钙铁矿（Fe（inf3）S（inf4））的受控生物矿化
7. Microscopic magnetic structuring of a spin-wave waveguide by ion implantation in a Ni(81)Fe(19) layer [O] . Obry, Björn, Meyer, Thomas, Pirro, Philipp, 2012

机译：离子对自旋波导的微观磁结构化植入Ni（81）Fe（19）层

Microscopic magnetic structuring of a spin-wave waveguide by ion implantation in a Ni81Fe19 layer

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