Your search keyword '"Bannikova, N. S."' showing total 20 results

1. Effect of the State of Interlayer Boundaries on the Magnetoresistive Properties of Layered Co/Cu Nanostructures

Author

Chuprakov, S. A., Bannikova, N. S., Blinov, I. V., Milyaev, M. A., Ogloblichev, V. V., Popov, V. V., and Ustinov, V. V.

Published

2022

2. Radiation Stability of Fe/Cr and СоFe/Cu Superlattices upon Irradiation with Argon Ions (Е = 10 keV)

Author

Gushchina, N. V., Shalomov, K. V., Ovchinnikov, V. V., Bannikova, N. S., and Milyaev, M. A.

Published

2020

3. Nuclear Magnetic Resonance and X-ray Reflectometry of Co/Cu Superlattices

Author

Chuprakov, S. A., Bannikova, N. S., Blinov, I. V., Krinitsina, T. P., Milyaev, M. A., Popov, V. V., and Ustinov, V. V.

Published

2019

4. Spin Valves with the Controlled Shift of Low-Field Hysteresis Loop and High-Sensitive Sensing Elements on Their Basis

Author

Chernyshova, T. A., Milyaev, M. A., Naumova, L. I., Maksimova, I. K., Pavlova, A. Yu., Bannikova, N. S., Proglyado, V. V., Patrakov, E. I., and Ustinov, V. V.

Published

2018

5. Influence of the Interface State on the Magnetoresistive Properties of Co/Cu Superlattices

Author

Chuprakov, S. A., Bannikova, N. S., Blinov, I. V., Krinitsina, T. P., Milyaev, M. A., Popov, V. V., Ryabukhina, M. V., and Ustinov, V. V.

Published

2018

6. Magnetoresistive sensitivity and uniaxial anisotropy of spin-valve microstrips with a synthetic antiferromagnet

Author

Chernyshova, T. A., Milyaev, M. A., Naumova, L. I., Proglyado, V. V., Bannikova, N. S., Maksimova, I. K., Petrov, I. A., and Ustinov, V. V.

Published

2017

7. Magnetooptical, optical, and magnetotransport properties of Co/Cu superlattices with ultrathin cobalt layers

Author

Lobov, I. D., Kirillova, M. M., Makhnev, A. A., Romashev, L. N., Korolev, A. V., Milyaev, M. A., Proglyado, V. V., Bannikova, N. S., and Ustinov, V. V.

Published

2017

8. Study of the structure of interlayer boundaries in [Co/Cu]10 superlattices by methods of NMR and X-ray reflectometry

Author

Chuprakov, S. A., Bannikova, N. S., Blinov, I. V., Krinitsina, T. P., Milyaev, M. A., Popov, V. V., and Ustinov, V. V.

Published

2016

9. NiFeCo/Cu superlattices with high magnetoresistive sensitivity and weak hysteresis

Author

Bannikova, N. S., Milyaev, M. A., Naumova, L. I., Krinitsina, T. P., Patrakov, E. I., Proglyado, V. V., Chernyshova, T. A., and Ustinov, V. V.

Published

2016

10. Uniaxial anisotropy variations and the reduction of free layer coercivity in MnIr-based top spin valves

Author

Milyaev, M. A., Naumova, L. I., Bannikova, N. S., Proglyado, V. V., Maksimova, I. K., Kamensky, I. Y., and Ustinov, V. V.

Published

2015

11. Giant magnetoresistance of CoFe/Cu superlattices with the (Ni80Fe20)60Cr40 buffer layer

Author

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

Published

2015

12. Investigation of interfaces of multilayer Co/Cu structures using the method of nuclear magnetic resonance

Author

Chuprakov, S. A., Bannikova, N. S., Blinov, I. V., Krinitsina, T. P., Milyaev, M. A., Popov, V. V., and Ustinov, V. V.

Published

2015

13. Effect of annealing on magnetoresistance and microstructure of multilayered CoFe/Cu systems with different buffer layer

Author

Bannikova, N. S., Milyaev, M. A., Naumova, L. I., Proglyado, V. V., Krinitsina, T. P., Chernyshova, T. A., and Ustinov, V. V.

Published

2015

14. Anhysteretic magnetization reversal of spin valves with a strong and weak interlayer coupling

Author

Naumova, L. I., Milyaev, M. A., Bebenin, N. G., Chernysheva, T. A., Proglyado, V. V., Krinitsina, T. P., Bannikova, N. S., and Ustinov, V. V.

Published

2014

15. High-sensitive hysteresisless spin valve with a composite free layer

Author

Ustinov, V. V., Milyaev, M. A., Naumova, L. I., Proglyado, V. V., Bannikova, N. S., and Krinitsina, T. P.

Published

2012

16. Giant changes in magnetic and magnetoresistive properties of CoFe/Cu multilayers at subnanosized variations in the thickness of the chromium buffer layer

Author

Milyaev, M. A., Naumova, L. I., Proglyado, V. V., Krinitsina, T. P., Burkhanov, A. M., Bannikova, N. S., and Ustinov, V. V.

Published

2011

17. Magnetoresistance of the La0.7Ca0.3MnO3 single crystal

Author

Bebenin, N. G., Zainullina, R. I., Bannikova, N. S., Elokhina, L. V., Ustinov, V. V., and Mukovskii, Ya. M.

Published

2009

18. Transport effects in single-crystal La0.82Ca0.18MnO3

Author

Bebenin, N. G., Zaĭnullina, R. I., Bannikova, N. S., Ustinov, V. V., and Mukovskiĭ, Ya. M.

Published

2008

19. Magnetoresistance of CoFeNi/Cu Superlattices Differing in the Ferromagnetic Alloy Composition.

Author

Milyaev, M. A., Bannikova, N. S., Naumova, L. I., Proglyado, V. V., Patrakov, E. I., Kamenskii, I. Yu., and Ustinov, V. V.

Abstract

Abstract—The structure and magnetoresistive properties of Ta(5 nm)/NiFeCr(5 nm)/[FM(tFM)/Cu(2.2 nm)]n/ Ta(5 nm) superlattices prepared by magnetron sputtering are studied in this work. The ferromagnetic layer thickness tFM is varied in a 1.1–1.5 nm range. The Co90Fe10, Co85Fe12Ni3, Co77Fe17Ni6, and Co70Fe20Ni10 alloys with an fcc structure and close saturation magnetization values are used as the ferromagnetic (FM) materials. It is shown that, as the Ni and Fe contents in the CoFeNi alloy increase, the magnetoresistance of superlattices containing eight bilayers remains high and equal to 24–28%; in this case, the twofold decrease in the hysteresis occurs. As the number of bilayers in the superlattices, which contain CoFeNi alloys differing in composition increases to 12, the close values of magnetoresistance 30–31% are obtained. The correlation between the saturation magnetization of the ferromagnetic material of superlattice layers and maximum value of magnetoresistance is discussed. [ABSTRACT FROM AUTHOR]

Published

2019

20. Giant Magnetoresistance and Hysteresis Phenomena in CoFe/Cu Superlattices with Highly Perfect Crystallographic Texture.

Author

Bannikova, N. S., Milyaev, M. A., Naumova, L. I., Patrakov, E. I., Proglyado, V. V., Kamenskii, I. Yu., Ryabukhina, M. V., and Ustinov, V. V.

Abstract

This paper presents the results of the investigation of the structure and magnetoresistive properties of [Co90Fe10/Cu]n superlattices deposited on (Ni80Fe20)60Cr40 and Ta/(Ni80Fe20)60Cr40 buffer layers by magnetron sputtering. Our study has found that a Ta sublayer added to the (Ni80Fe20)60Cr40 buffer layer increases the degree of perfection of the 〈111〉 texture. This leads to a substantial decrease in the magnetoresistance hysteresis. The optimization of the composition of multilayered structure allowed us to obtain the superlattice with the relative magnetoresistance magnitude, which at room temperature reaches 81% and, at liquid helium temperature, exceeds 160%. The studied superlattices exhibited high temperature stability. [ABSTRACT FROM AUTHOR]

Published

2018