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Your search keyword '"Tatarskiy, Dmitry A."' showing total 14 results
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14 results on '"Tatarskiy, Dmitry A."'

1. Phase transformation kinetics in polycrystalline Fe_xAl_1-x (x>0.6) alloys: Experiment and Simulation

Author

Nazarov, Artem A., Pashenkin, Igor Y., Tatarskiy, Dmitry A., Yunin, Pavel A., Churin, Sergey A., Sapozhnikov, Maksim V., Fraerman, Andrey A., Bohra, Murtaza, and Polushkin, Nikolay I.

Subjects
Condensed Matter - Materials Science
Abstract

The presence of defects of different kinds, e.g., vacancies, voids, dislocations, grain boundaries, and surfaces, in realistic materials can strongly modify and even dictate the thermodynamics of phase transformations. Our study demonstrates, both theoretically and experimentally, that in the ordering of Fe_xAl_1-x (x>0.6) alloys subjected to high-temperature treatment, the relaxation of the as-prepared chemically disordered alloy into the ordered B2 state is hampered by another process. A manifestation of this is an increase in the alloy's magnetization. A plausible explanation for a non-monotonous behavior of the magnetization we observe is segregation of Al into structural defects, e.g., grain boundaries, and thus purification of the Fe host lattice. Qualitatively, experimental findings reported here are supported by molecular dynamics simulation of the phase transformation kinetics in Fe_xAl_1-x. These studies can be useful for choosing the preparation strategy for functional alloys., Comment: 7 pages, 4 figures, 1 table

Published
2024

3. Exotic Topological Magnetic States in Thin Co/Pd Ferromagnetic Films

Author

Dorokhin, Mikhail V., primary, Ved, Mikhail V., additional, Kalentyeva, Irina L., additional, Demina, Polina B., additional, Zdoroveyshchev, Anton V., additional, Zdoroveyshchev, Daniil A., additional, Kudrin, Alexey V., additional, Temiryazeva, Marina P., additional, Temiryazev, Alexei G., additional, Tatarskiy, Dmitry A., additional, Trushin, Vladimir N., additional, Orlova, Anastasia N., additional, Kriukov, Ruslan N., additional, Zubkov, Sergey Yu., additional, and Sadovnikov, Alexandr V., additional

Published
2024
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4. Magnetic and Magnetocaloric Modifications near Room Temperature in Fe0.6Al0.4 Nanoalloys under Irradiation by Swift Heavy Ions.

Author

Pashenkin, Igor Y., Gorev, Roman V., Kuznetsov, Mikhail A., Tatarskiy, Dmitry A., Churin, Sergey A., Yunin, Pavel A., Drozdov, Mikhail N., Krivulin, Dorofey O., Sapozhnikov, Maksim V., Demidov, Evgeny S., Skuratov, Vladimir A., Kudyukov, Egor V., Kurlyandskaya, Galina V., Fraerman, Andrey A., and Polushkin, Nikolay I.

Published
2024
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5. Magnetization Reversal of Magnetic Tunnel Junctions by Low-Current Pulses

Author

Pashen'kin, Igor Yu., Gusev, Nikita S., Tatarskiy, Dmitry A., and Sapozhnikov, Maksim V.

Abstract

The magnetization curves of highly resistive CoFeB/MgO/CoFeB/IrMn magnetic tunnel junctions (MTJs) are studied in dependence of the electrical field in the barrier. It is shown that the magnetoresistive hysteresis curve of the free layer (FL) is shifted by 6 Oe with the increase of the applied voltage from 50 mV to 1 V. The 100-ns voltage pulse of 2 V changes the magnetization of the FL by 50%. At that the current density of the pulse is small enough as $10^{{3}}$ A/cm2. The most probable explanation of the observed effect is the dependence of the exchange interaction between the ferromagnetic (FM) layers in the MTJ on the electric field in the barrier, which reaches a value of $10^{{7}}$ V/cm. The architecture of the MRAM cell operating on the observed effect is proposed.

Published
2024
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7. Manipulation of Micromagnetic Structure of Thin Co/Pt Multilayer Films by Precise Variation of Co and Pt Thicknesses

Author

Dorokhin, M.V., primary, Zdoroveyshchev, Anton V., additional, Temiryazeva, Marina P., additional, Temiryazev, Alexei G., additional, Demina, Polina B., additional, Vikhrova, O.V., additional, Kudrin, Alexey V., additional, Kalentyeva, Irina, additional, Ved, Mikhail V., additional, Orlova, Anastasia N., additional, Trushin, Vladimir N., additional, Sadovnikov, Alexandr V., additional, and Tatarskiy, Dmitry A., additional

Published
2022
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9. Correction to “Magnetic and Magnetocaloric Modifications near Room Temperature in Fe0.6Al0.4Nanoalloys under Irradiation by Swift Heavy Ions”

Author

Pashenkin, Igor Y., Gorev, Roman V., Kuznetsov, Mikhail A., Tatarskiy, Dmitry A., Churin, Sergey A., Yunin, Pavel A., Drozdov, Mikhail N., Krivulin, Dorofey O., Sapozhnikov, Maksim V., Demidov, Evgeny S., Skuratov, Vladimir A., Kudyukov, Egor V., Kurlyandskaya, Galina V., Fraerman, Andrey A., and Polushkin, Nikolay I.

Published
2024
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11. Investigation of High‐Density Nitrogen Vacancy Center Ensembles Created in Electron‐Irradiated and Vacuum‐Annealed Delta‐Doped Layers

Author

Bogdanov, Sergey, primary, Gorbachev, Alexey, additional, Radishev, Dmitry, additional, Vikharev, Anatoly, additional, Lobaev, Mikhail, additional, Bolshedvorskii, Stepan, additional, Soshenko, Vladimir, additional, Gusev, Sergey, additional, Tatarskiy, Dmitry, additional, and Akimov, Alexey, additional

Published
2021
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13. Magnetic and Magnetocaloric Modifications near Room Temperature in Fe0.6Al0.4Nanoalloys under Irradiation by Swift Heavy Ions

Author

Pashenkin, Igor Y., Gorev, Roman V., Kuznetsov, Mikhail A., Tatarskiy, Dmitry A., Churin, Sergey A., Yunin, Pavel A., Drozdov, Mikhail N., Krivulin, Dorofey O., Sapozhnikov, Maksim V., Demidov, Evgeny S., Skuratov, Vladimir A., Kudyukov, Egor V., Kurlyandskaya, Galina V., Fraerman, Andrey A., and Polushkin, Nikolay I.

Abstract

This paper reports on the formation and properties of a kind of nanostructured magnetic material, which is ferromagnetic (FM) inclusions in a paramagnetic (PM) but well magnetized matrix. It has been argued that such FM/PM nanostructures are formed due to local chemical disordering along ion tracks in thin-film Fe0.6Al0.4alloys irradiated with xenon ions at an energy of 160 MeV. The nonirradiated matrix, obtained by thermal annealing of the as-prepared alloy, has a PM-like behavior (with no hysteresis and remanence) at room temperature (RT). Interestingly, the irradiated samples exhibit a sharp peak in the temperature dependence of the magnetic entropy change ΔSat T∼ 320 K. The emergence of this maximum is attributed to the interfacial exchange interaction in the formed FM/PM-like nanostructures, which affects the matrix magnetization near the Curie temperature TCof the PM-like matrix. The peak value of ΔSobtained has been compared to that theoretically predicted for plane-layered FM/PM structures upon the basis of the Landau theory for the second-order phase transitions. A discrepancy observed between the theory and experiment can be explained by occurrence of quite big superparamagnetic (SPM) clusters in a partially ordered (∼0.6) Fe0.6Al0.4alloy. These entities essentially contribute the matrix magnetization at RT. The study reported here provides a better understanding of the structural, magnetic, and magnetocaloric properties of the heterogeneous FexAl1–xsystem, which can be viewed as particular type of nanocomposite.

Published
2024
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