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Anisotropic magnetoresistance of Ni nanorod arrays in porous SiO2/Si templates manufactured by swift heavy ion-induced modification

机译：快速重离子诱导改性制备多孔SiO2 / Si模板中Ni纳米棒阵列的各向异性磁阻

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In this work anisotropic magnetoresistance in nanogranular Ni lms and Ni nanorods on Si(100) wafer substrates was studied in wide ranges of temperature and magnetic feld. To produce Ni films and nanorods we used electrochemical deposition of Ni clusters either directly on the Si substrate or into pores in SiO2 layer on the Sisubstrate. Pores, randomly distributed in the template have diameters of 100-250 nm and heights about 400-500 nm. Comparison of temperature dependences of resistance and magnetoresistance in Ni films and n-Si/SiO2/Ni structures with Ni nanorods showed that they are strongly dependent on orientation of magnetic field and current vectors relative to each other and the plane of Si substrate. Moreover, magnetoresistance values in n-Si/SiO2/Ni nanostructures can be controlled not only by electric field applied along Si substrate but also by additionally applied transversal bias voltage.

机译：在这项工作中，研究了Si（100）晶片衬底上的纳米颗粒Ni lms和Ni纳米棒中的各向异性磁阻，其工作温度和磁场范围很广。为了生产Ni薄膜和纳米棒，我们使用了直接在Si衬底上或在Si衬底上SiO2层的孔中进行Ni簇的电化学沉积。随机分布在模板中的孔的直径为100-250 nm，高度约为400-500 nm。比较Ni膜和具有Ni纳米棒的n-Si / SiO2 / Ni结构中电阻和磁阻的温度依赖性，发现它们强烈依赖于磁场和电流矢量相对于彼此的取向以及Si衬底的平面。此外，n-Si / SiO2 / Ni纳米结构中的磁阻值不仅可以通过沿Si基板施加的电场来控制，还可以通过附加施加的横向偏置电压来控制。

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Fedotova J.; Ivanou D.; Mazanik A.; Svito I.; Streltsov E.; Saad A.; Zukowski P.; Fedotov A.; Bury P.; Apel P.;
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年度 2015
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1. Anisotropic Magnetoresistance of Ni Nanorod Arrays in Porous SiO2/Si Templates Manufactured by Swift Heavy Ion-Induced Modification [J] . Fedotova J., Ivanou D., Mazanik A., Acta Physica Polonica . 2015,第5期

机译：快速重离子诱导修饰制备的多孔SiO2 / Si模板中Ni纳米棒阵列的各向异性磁阻
2. Magnetoresistance in n-Si/SiO_2/Ni Nanostructures Manufactured by Swift Heavy Ion-Induced Modification Technology [J] . J. Fedotova, D. Ivanou, Y. Ivanova, Acta Physica Polonica . 2011,第1期

机译：快速重离子诱导改性技术制备的n-Si / SiO_2 / Ni纳米结构的磁阻
3. Electro chemically Deposited Cobalt Nanoarrays in SiO_2-Si Templates Produced by Swift Heavy Ion-Induced Modification Technology [J] . T.N. Koltunowicz, P. Zhukowski, J.A. Fedotova, Acta Physica Polonica . 2013,第5期

机译：快速重离子诱导修饰技术制备的SiO_2 / n-Si模板中的电化学沉积钴纳米阵列
4. Porous anodic template modification for the electrosynthesis of zinc nanorods [C] . Mario Guerreiro Silva FERREIRA, Maksim STARYKEVICH, Andrei SALAK, European corrosion congress;International corrosion congress;Pprocess safety congress . 2017

机译：多孔阳极模板修饰用于锌纳米棒的电合成
5. Size-controllable Growth of Zinc Oxide Nanorod Arrays and Their Surface Modifications. [D] . Jiao, Yang. 2010

机译：氧化锌纳米棒阵列的尺寸可控生长及其表面修饰。
6. Robust water repellent ZnO nanorod array by Swift Heavy Ion Irradiation: Effect of Electronic Excitation Induced Local Chemical State Modification [O] . Kugalur Shanmugam Ranjith, Lalitha Raveendran Nivedita, Kandasami Asokan, -1

机译：快速重离子辐照的坚固防水ZnO纳米棒阵列：电子激发诱导的局部化学态修饰的影响
7. Anisotropic Magnetoresistance of Ni Nanorod Arrays in Porous SiO2/Si Templates Manufactured by Swift Heavy Ion-Induced Modification [O] . J. Fedotova, D. Ivanou, A. Mazanik, 2015

机译：通过SWIFT重离子诱导的改性制造的多孔SiO2 / Si模板中Ni Nanorod阵列的各向异性磁阻

Anisotropic magnetoresistance of Ni nanorod arrays in porous SiO2/Si templates manufactured by swift heavy ion-induced modification

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