Search Results - "Granovskiĭ, A. B."

Ni-Based Alloys for Magnetic Hyperthermia: Comparison of Direct and Indirect Methods for Determining Magnetocaloric Parameters by Prudnikova, M. V., Prudnikov, V. N., Dubenko, I., Granovskii, A. B.

“…This work describes experimental study by a direct and indirect method of magnetocaloric properties of Ni-based alloys: Ni 93.8 V 6.2 , Ni 89.5 Al 10.5 , Ni…”
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Magnetooptical Kerr Spectroscopy of Nanocomposites by Gan’shina, E. A., Garshin, V. V., Perova, N. N., Pripechenkov, I. M., Yurasov, A. N., Yashin, M. M., Rylkov, V. V., Granovskii, A. B.

“…Magnetooptical spectroscopy is an effective method for studying the magnetic microstructure of homogeneous and heterogeneous magnets. This review is devoted to…”
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Magnetically controlled vertically emitting laser with anisotropic pumping by Zyablovskii, A. A., Dorofeenko, A. V., Pukhov, A. A., Vinogradov, A. P., Andrianov, E. S., Granovskii, A. B., Lisyanskii, A. A.

“…A vertically emitting Faraday laser that is pumped by quantum wires or strongly anisotropic quantum dots is considered. As distinct from a similar laser on a…”
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Magneto-Optical Spectroscopy of Nanocomposites (CoFeB)x(LiNbO3)100 –x with Concentrations up to the Percolation Threshold: From Superparamagnetism and Superferromagnetism to Ferromagnetism by Gan’shina, E. A., Pripechenkov, I. M., Perova, N. N., Kanazakova, E. S., Nikolaev, S. N., Sitnikov, A. S., Granovskii, A. B., Ryl’kov, V. V.

“…Nanocomposites (CoFeB) x (LiNbO 3 ) 100 – x with x = 17–48 at % have been synthesized by ion beam sputtering of a composite target comprised of Co 40 Fe 40 B…”
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Magnetotransmission and magnetoreflection in multilayer FeCr nanostructures by Ustinov, V. V., Sukhorukov, Yu. P., Milyaev, M. A., Granovskiĭ, A. B., Yurasov, A. N., Gan’shina, E. A., Telegin, A. V.

“…The magnetotransmission and magnetoreflection spectra of a seven-layer Cr(28 Å)/Fe(36 Å)/Cr(13 Å)/Fe(18 Å)/Cr(13 Å)/Fe(36 Å)/Cr(28 Å) film, their temperature…”
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Erratum to: Magneto-Optical Spectroscopy of Nanocomposites (CoFeB)x(LiNbO3)100 – x with Concentrations up to the Percolation Threshold: From Superparamagnetism and Superferromagnetism to Ferromagnetism by Gan’shina, E. A., Pripechenkov, I. M., Perova, N. N., Kanazakova, E. S., Nikolaev, S. N., Sitnikov, A. S., Granovskii, A. B., Ryl’kov, V. V.

“…An Erratum to this paper has been published: https://doi.org/10.1134/S0031918X2355001X…”
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Ferromagnetism of Mn-implanted silicon: Magnetization and magnetooptic faraday effect by Granovskiĭ, A. B., Sukhorukov, Yu. P., Orlov, A. F., Perov, N. S., Korolev, A. V., Gan’shina, E. A., Zinenko, V. I., Agafonov, Yu. A., Saraĭkin, V. V., Telegin, A. V., Yarkin, D. G.

“…Manganese-implanted silicon plates of both n and p types have been obtained by implanting 195-keV manganese ions with doses from 1 × 1015 to 2 × 1016 cm−2…”
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Magnetotransport Properties of Thin Ni49.7Fe17.4Co4.2Ga28.7 Films by Blinov, M. I., Chernenko, V. A., Prudnikov, V. N., Aseguinolaza, I. R., Barandiaran, J. M., Lahderanta, E., Khovailo, V. V., Granovskii, A. B.

“…The magnetic and magnetotransport properties of thin Heusler alloy Ni 49.7 Fe 17.4 Co 4.2 Ga 28.7 films deposited onto MgO(100) substrates are studied over a…”
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Martensitic Phase Transition in Magnetic Thin Films Based on Inverse Mn2FeSi Heusler Alloys by Granovskii, A. B., Soboleva, E. A., Fadeev, E. A., Dubenko, I. S., Aryal, A., Samassekou, H., Pandey, S., Stadler, S., Mazumdar, D., Ali, N., Lähderanta, E.

“…Magnetic Heusler alloys X 2 BZ (where X and B are 3 d elements and Z belongs to the sp group) exhibit diverse magnetic and structural properties, which are…”
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Planar Hall effect and anisotropic magnetoresistance in layered structures Co0.45Fe0.45Zr0.1/a-Si with percolation conduction by Aronzon, B. A., Granovskiĭ, A. B., Davydov, A. B., Dokukin, M. E., Kalinin, Yu. E., Nikolaev, S. N., Rylkov, V. V., Sitnikov, A. V., Tugushev, V. V.

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Determination of the normal and anomalous hall effect coefficients in ferromagnetic Ni50Mn35In15 − x Si x Heusler alloys at the martensitic transformation by Granovskii, A. B., Prudnikov, V. N., Kazakov, A. P., Zhukov, A. P., Dubenko, I. S.

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High-frequency magnetic permeability of single- and multilayered (Co41Fe39B20)x(SiO2)100–x nanocomposites by Tarasova, O. S., Sitnikov, A. V., Kalinin, Yu. E., Starostenko, S. N., Granovskii, A. B.

“…Thin film single-layered (Co 41 Fe 39 B 20 ) x (SiO 2 ) 100– x nanocomposites at x = 30–80 at % and multilayered nanocomposites composed of 176 pairs of [(Co…”
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Dynamic magnetic permeability of the heterogeneous nanosystems based on (Co41Fe39B20)x(SiO2)100 – x composites by Granovskii, A. B., Kalinin, Yu. E., Kashirin, M. A., Kolmakov, D. V., Ryl’kov, V. V., Sitnikov, A. V., Vyzulin, S. A., Gan’shina, E. A., Taldenkov, A. N.

“…Thin films of (Co 41 Fe 39 B 20 ) x (SiO 2 ) 100 – x nanocomposites and hybrid nanocomposite–semiconductor [(Co 41 Fe 39 B 20 ) x (SiO 2 ) 100 – x /C] 50…”
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Magnetorefractive effect in nanostructures, manganites, and magnetophotonic crystals based on these materials by Granovskii, A. B., Gan’shina, E. A., Yurasov, A. N., Boriskina, Yu. V., Yerokhin, S. G., Khanikaev, A. B., Inoue, M., Vinogradov, A. P., Sukhorukov, Yu. P.

“…Studies of the magnetorefractive effect (MRE) in multilayers, granulated films, nanocomposites, and manganites are briefly reviewed. A simple algorithm for…”
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High-Frequency Magnetic Properties of Glass-Reinforced Plastic Laminate with Deposited Functional Thin-Film Coating Based on (Co40Fe40B20)60(SiO2)40 Nanocomposite by Tarasova, O. S., Sitnikov, A. V., Kalinin, Yu. E., Pasternak, Yu. G., Mishin, A. D., Rozanov, K. N., Granovskii, A. B., Chuguevskii, V. I.

“…—The magnetostatic and magnetodynamic properties of laminated materials based on glass-reinforced plastic laminate coated with magnetic (Co 40 Fe 40 B 20 ) 60…”
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Conductivity and anomalous Hall effect in film magnetic nanocomposites based on nonstoichiometric oxides by Nikolaev, S. N., Chernoglazov, K. Yu, Demin, V. A., Chumakov, N. K., Levanov, V. A., Magomedova, A. A., Sitnikov, A. V., Kalinin, Yu. E., Granovskii, A. B., Rilkov, V. V.

“…The transport properties of film nanocomposites (Co 40 Fe 40 B 20 ) x (AlO y ) 100 − x and (Co 84 Nb 14 Ta 2 ) x (AlO y ) 100 − x based on AlO y oxide ( y ~…”
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Hall effect in a martensitic transformation in Ni-Co-Mn-In Heusler alloys by Prudnikov, V. N., Kazakov, A. P., Titov, I. S., Perov, N. S., Granovskii, A. B., Dubenko, I. S., Pathak, A. K., Ali, N., Zhukov, A. P., Gonzalez, J.

“…The Hall effect, transverse magnetoresistance, and magnetization of Ni 48 Co 2 Mn 35 In 15 Heusler alloys have been studied at T = 77–300 K in magnetic fields…”
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Influence of the size distribution of granules and of their attractive interaction on the percolation threshold in granulated alloys by Khanikaev, A. B., Granovskii, A. B., Clerc, J. P.

“…Numerical simulation was applied to study the influence of the size distribution of granules and the interaction between them on the percolation threshold in…”
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Optical and magnetooptical properties of granular alloys with giant magnetoresistance in the IR region of the spectrum by Granovskii, A. B., Kuz’michev, M. V., Clerc, J. P.

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Anomalous hall effect in Mn δ-doped GaAs/In0.17Ga0.83As/GaAs quantum wells with high hole mobility by Aronzon, B. A., Kul’bachinskiĭ, V. A., Gurin, P. V., Davydov, A. B., Ryl’kov, V. V., Granovskiĭ, A. B., Vikhrova, O. V., Danilov, Yu. A., Zvonkov, B. N., Horikoshi, Y., Onomitsu, K.

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