Giant magnetoresistance of CoFe/Cu superlattices with the (Ni80Fe20)(60)Cr-40 buffer layer

Bannikova N. S.; Milyaev M. A.; Naumova L. I.; Proglyado V. V.; Krinitsina T. P.; Kamenskii I. Yu.; Ustinov V. V.

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Giant magnetoresistance of CoFe/Cu superlattices with the (Ni80Fe20)(60)Cr-40 buffer layer

机译：具有（Ni80Fe20）（60）Cr-40缓冲层的CoFe / Cu超晶格的巨磁电阻

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Magnetron sputtering was used to prepare substrate//(Ni80Fe20)(60)Cr-40/[Co90Fe10/Cu] (n) /Cr superlattices containing permalloy-chromium buffer layer of different thicknesses. To achieve a maximum magnetoresistance of the superlattices, the thickness of their layers has been optimized. The use of the (Ni80Fe20)(60)Cr-40 buffer layer was found to result in the formation a more perfect crystal structure of subsequent layers of the superlattice compared to that of superlattices with the Cr and Co90Fe10 buffer layers. The superlattice with the optimum thickness of the (Ni80Fe20)(60)Cr-40 buffer layer and thin copper layers, the thickness of which is t (Cu) = 9.5 , demonstrates the giant magnetoresistance effect equal to 54% at room temperature.

机译：磁控溅射用于制备衬底//（Ni80Fe20）（60）Cr-40 / [Co90Fe10 / Cu]（n）/ Cr超晶格，其包含不同厚度的坡莫合金-铬缓冲层。为了获得超晶格的最大磁阻，已对其层的厚度进行了优化。已经发现，与具有Cr和Co90Fe10缓冲层的超晶格相比，（Ni80Fe20）（60）Cr-40缓冲层的使用导致超晶格的后续层的形成更加完美的晶体结构。具有最佳厚度的（Ni80Fe20）（60）Cr-40缓冲层和薄铜层（其厚度为t（Cu）= 9.5）的超晶格显示出在室温下的巨磁阻效应等于54％。

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《The Physics of Metals and Metallography》 |2015年第10期|共6页
作者
Bannikova N. S.; Milyaev M. A.; Naumova L. I.; Proglyado V. V.; Krinitsina T. P.; Kamenskii I. Yu.; Ustinov V. V.;
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正文语种 eng
中图分类金属学与热处理;
关键词
giant magnetoresistance effect; superlattices; CoFe/Cu; magnetron sputtering; buffer layer NiFeCr; texture lt; 111 gt;

机译：巨磁阻效应;超晶格;CoFe / Cu;磁控溅射;NiFeCr缓冲层;织构111;

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专利

1. Giant magnetoresistance of CoFe/Cu superlattices with the (Ni80Fe20)(60)Cr-40 buffer layer [J] . Bannikova N. S., Milyaev M. A., Naumova L. I., The Physics of Metals and Metallography . 2015,第10期

机译：具有（Ni80Fe20）（60）Cr-40缓冲层的CoFe / Cu超晶格的巨磁电阻
2. Giant drop of magnetic hysteresis with decreasing thickness of Cr-buffer layer of CoFe/Cu superlattices [J] . Milyaev M.A., Naumova L.I., Proglyado V.V., Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2011,第Null期

机译：随着CoFe / Cu超晶格Cr缓冲层厚度的减小，磁滞的巨大下降
3. Microwave Giant Magnetoresistance in [CoFe/Cu](n) Superlattices with Record-High Magnetoresistance [J] . Rinkevich A. B., Pakhomov Ya. A., Kuznetsov E. A., Technical physics letters: Letters to the Russian journal of applied physics . 2019,第3期

机译：微波巨型磁阻在[cofe / cu]（n）超晶格中，具有记录高磁阻
4. Giant Drop of Magnetic Hysteresis with Decreasing Thickness of Cr- Buffer Layer of CoFe/Cu Superlattices [C] . M. A. Milyaev, L. I. Naumova, V. V. Proglyado, Euro-Asian symposium on trends in magnetism . 2011

机译：Cofe / Cu超晶格Cr-缓冲层厚度降低的磁滞巨大磁滞
5. Giant magnetoresistance and magnetic coupling in cobalt/copper superlattices investigated by the magneto-optical Kerr effect. [D] . Yang, Zhijun. 1994

机译：通过磁光克尔效应研究了钴/铜超晶格中的巨磁阻和磁耦合。
6. Tailoring of magnetic properties of giant magnetoresistance spin valves via insertion of ultrathin non-magnetic spacers between pinned and pinning layers [O] . Si Nyeon Kim, Jun Woo Choi, Sang Ho Lim -1

机译：通过在被钉扎层和被钉扎层之间插入超薄非磁性垫片来调整巨型磁阻自旋阀的磁性能
7. Giant magnetoresistance in CoFe/Cu multilayers with different buffer layers and substrates [O] . S. Gangopadhyay, J.X. Shen, M.T. Kief, 1995

机译：Cofe / Cu多层的巨型磁阻具有不同的缓冲层和基材
8. Giant magnetoresistance in Co(sub 70)Fe(sub 30)/Ag multilayers with ultrathin CoFe layers [R] . Rodmacq, B. , Dieny, B. , Mevel, B. , 1994

机译：具有超薄CoFe层的Co（sub 70）Fe（sub 30）/ ag多层膜中的巨磁电阻

Giant magnetoresistance of CoFe/Cu superlattices with the (Ni80Fe20)(60)Cr-40 buffer layer

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