Peculiarities of Hysteretic Properties and Magnetostriction of Nano-Structured Fe10Ni90 Films

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Аннотация

The study is related to the investigation of hysteresis and magnetostrictive properties of single-layer Fe10Ni90 films and nano-structured [Fe10Ni90/Cu]p/Fe10Ni90 films, where the magnetostrictive layers are separated with a nonmagnetic interlayer. The magnetostriction effect is shown to depend on the total layer thickness; in this case, the magnetostriction of the [Fe10Ni90/Cu]p/Fe10Ni90 film structures was found to be higher than that of the single-layer Fe10Ni90 films. The observed peculiarity is associated with weakening the fixing effect of a substrate.

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Авторлар туралы

K. Balymov

Ural Federal University Named after the First President of Russia B.N. Yeltsin

Хат алмасуға жауапты Автор.
Email: k.g.balymov@urfu.ru
Ресей, Ekaterinburg, 620002

E. Kudyukov

Ural Federal University Named after the First President of Russia B.N. Yeltsin

Email: k.g.balymov@urfu.ru
Ресей, Ekaterinburg, 620002

М. Kalinin

Ural Federal University Named after the First President of Russia B.N. Yeltsin

Email: k.g.balymov@urfu.ru
Ресей, Ekaterinburg, 620002

V. Lepalovskij

Ural Federal University Named after the First President of Russia B.N. Yeltsin

Email: k.g.balymov@urfu.ru
Ресей, Ekaterinburg, 620002

Е. Кravtsov

Ural Federal University Named after the First President of Russia B.N. Yeltsin; Miheev Institute of Metal Physics, Ural Branch, Russian Academy of Sciences

Email: k.g.balymov@urfu.ru
Ресей, Ekaterinburg, 620002; Ekaterinburg, 620108

V. Vas’kovskiy

Ural Federal University Named after the First President of Russia B.N. Yeltsin; Miheev Institute of Metal Physics, Ural Branch, Russian Academy of Sciences

Email: k.g.balymov@urfu.ru
Ресей, Ekaterinburg, 620002; Ekaterinburg, 620108

Әдебиет тізімі

  1. Kudyukov E.V., Balymov K.G., Vas’kovskiy V.O. Magnetic anisotropy and magnetoelastic properties of Fe10Ni90 films // J. Phys.: Conference Series. 2019. V. 1389. P. 012017.
  2. Yiwei Liu, Qingfeng Zhan, Guohong Dai, Xiaoshan Zhang, Baomin Wang, Gang Liu, ZhenghuZuo, Xin Rong, Huali Yang, Xiaojian Zhu, YaliXie, Bin Chen, Run-Wei Li. Thermally assisted electric field control of magnetism in flexible multiferroic heterostructures // Scientific Reports. 2014. V. 4. P. 6925.
  3. Bonin R., Schneider M.L., Silva T.J., Nibarger J.P. Dependence of magnetization dynamics on magnetostriction in NiFe alloys // J. Appl. Phys. 2005. V. 98. P. 123904.
  4. Coton N., Andres J.P., Molina E., Jaafar M., Ranchal R. Stripe domains in electrodeposited Ni90Fe10 thin films // J. Magn. Magn. Mater. 2023. V. 565. P. 170246.
  5. Komogortsev S.V., Vazhenina I.G., Kleshnina S.A., Iskhakov R.S., Lepalovskij V.N., Pasynkova A.A., Svalov A.V. Advanced Characterization of FeNi-Based Films for the Development of Magnetic Field Sensors with Tailored Functional Parameters // Sensors. 2022. V. 22. P. 3324.
  6. Kurlyandskaya G.V., Elbaile L., Alves F., Ahamada B., Barrué R., Svalov A.V., Vas’kovskiy V.O. Domain structure and magnetization process of a giant magnetoimpedance geometry FeNi/Cu/FeNi(Cu)FeNi/Cu/FeNi sensitive element // J. Phys.: Condens. Matter. 2004. V. 16. P. 6561–6568.
  7. Balymov K.G., Kudyukov E.V., Lepalovskij V.N., Kulesh N.A., Vas’kovskiy V.O. Using Magnetoresistive Films with Unidirectional Anisotropy to Register Elastic Deformations // Russian Journal of Nondestructive Testing. 2017. V. 53. P. 514–519.
  8. Okita K. Magnetostriction Measurement of Giant Magnetoresistance Films on the Practical Substrates by using Inverse-magnetostriction Effect // EPJ Web of Conference. 2013. V. 40. P. 01004.
  9. Буравихин Б.А. Влияние механических напряжений на магнитные свойства пленок. Иркутск: Восточносибирское книжное издательство, 1968. 123 с.
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  11. Лесник А.Г. Наведенная магнитная анизотропия Текст / А.Г. Лесник. Киев: Наукова думка, 1976. 211 с.

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Әрекет
1. JATS XML
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2. 1. X-ray diffraction pattern of Fe10Ni90 film with a thickness of 100 nm.

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3. 2. Magnetoresistive curves for the [Fe10Ni90(100 nm)/Cu]6/Fe10Ni90(100 nm) film, measured in a field parallel to the long side of the sample in the initial state (curve 1) and at a relative compression strain of 0.055% (curve 2).

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4. 3. Dependences of the magnetostriction constant λs, determined from magnetoresistive loops, on the thickness of single-layer Fe10Ni90 films (curve 1) and the total thickness of Fe10Ni90 layers of the [Fe10Ni90/Cu]p/Fe10Ni90 film structure (curve 2).

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5. Fig. 4. Hysteresis loops measured on a vibration magnetometer along (curves 1) and perpendicular to (curves 2) the OTP: (a) – Fe10Ni90 (200 nm), (b) – Fe10Ni90 (400 nm), (c) – [Fe10Ni90(100 nm)/Cu]2/Fe10Ni90(100 nm) and (g) – [Fe10Ni90(100 nm)/Cu]7/Fe10Ni90(100 nm). The inserts in Figures (b) and (d) show hysteresis loops measured perpendicular to the film plane.

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6. Fig. 5. Dependences of the Mr/Ms ratio (curve 1), determined from hysteresis loops measured along the OTP, and grain size (curve 2) on the thickness of Fe10Ni90 films.

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7. 6. The dependence of the Mr/Ms ratio on the number of periods in the structure of [Fe10Ni90(100 nm)/Cu]p/Fe10Ni90 (100 nm).

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8. 7. Mises stress distribution over the film thickness [Fe10Ni90(100 nm)/Cu]8/Fe10Ni90 (100 nm).

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