A. I. Stognij scite author profile

A. I. Stognij

5Publications

13Citation Statements Received

145Citation Statements Given

How they've been cited

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132

139

Affiliations

National Academy of Sciences of Belarus, RSPC MT, Institute of Solid State Physics and Semiconductors

Publications

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Spin-wave filters based on thin Y3Fe5O12 films on Gd3Ga5O12 and Si substrates for microwave applications

Lutsev

Dubovoy²,

Stognij³

et al. 2020

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Spin-wave bandpass filters with small sizes on the basis of thin Y3Fe5O12 [yttrium-iron garnet (YIG)] films on Gd3Ga5O12 [gadolinium-gallium garnet (GGG)] and SiO2/Si substrates have been constructed. A thin YIG film with a thickness of 0.8μm on SiO2/Si substrates has been grown by the ion-beam sputtering. It is found that the coplanar antenna structure can be successfully used to construct tunable small-sized narrowband bandpass filters based on spin waves. The filter transmission characteristic has a nonreciprocity when the direction of energy propagation changes. Spin-wave filter characteristics are analyzed using the transmission-matrix formalism.

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Surface Plasmon-Enhanced Photomagnetic Excitation of Spin Dynamics in Au/YIG:Co Magneto-Plasmonic Crystals

Kazlou

Chekhov

Stognij³

et al. 2021

ACS Photonics

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We report strong amplification of the photomagnetic spin precession in Co-doped YIG employing a surface plasmon excitation in a metal-dielectric magneto-plasmonic crystal. Plasmonic enhancement is accompanied by the localization of the excitation within the 300 nm thick layer inside the transparent dielectric garnet. Experimental results are nicely reproduced by numerical simulations of the photomagnetic excitation. Our findings demonstrate the magneto-plasmonic concept of subwavelength localization and amplification of the photomagnetic excitation in dielectric YIG:Co, which can potentially be employed for all-optical magnetization switching below the diffraction limit, with energy efficiency approaching the fundamental limit for magnetic memories.

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The Synthesis of Metal Oxide Films from Compound Powder Targets

Stognij¹,

Tokarev²,

Mitin³

1991

MRS Proc.

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Influence of Input Signal Power on Magnetostatic Surface Waves Propagation in Yttrium-Iron Garnet Films on Silicon Substrates

Filimonov¹,

Sakharov²,

Khivintsev³

et al. 2017

AND

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Интерес к изучению плёнок железо-иттриевого граната на подложках кремния обусловлен совместимостью процесса их изготовления с полупроводниковыми технологиями, что делает возможной интеграцию на одном чипе устройств магноники и электроники. Однако особенности распространения спиновых волн в плёнках железо-иттриевого граната на полупроводниковых подложках, в частности, с ростом входной мощности сигнала, остаются слабоизученными.В данной работе при помощи векторного анализатора цепей и СВЧ зондовой станции было исследовано влияние мощности входного сигнала на распространение поверхностных магнитостатических волн (ПМСВ) в макете типа линия задержки на основе плёнки железо-иттриевого граната на кремниевой подложке, полученной ионно-лучевым распылением.Обнаружено, что характер зависимости мощности выходного сигнала ПМСВ (Pout) от уровня падающей мощности (Pin) существенно определяется положением частоты ПМСВ относительно частоты fmax, соответствующей максимуму прохождения ПМСВ в спектре передачи макета. Для частот f > fmax зависимость Pout(Pin) демонстрирует спад с ростом мощности, тогда как на частотах f < fmax наблюдается максимум, что качественно отличается от характера зависимостей Pout(Pin) для случая эпитаксиальных пленок железо-иттриевого граната на подложках гадолиний-галлиевого граната.Указанная особенность связывается с более высоким (на два порядка) уровнем затухания спиновых волн в пленках железо-иттриевого граната на подложках кремния, по сравнению с эпитаксиальными структурами «железо-иттриевый гранат-гадолиний-галлиевый гранат». В результате в пленках железо-иттриевого

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Mesostructure and Magnetic Properties of SiO2-Co Granular Film on Silicon Substrate

et al. 2022

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Granular films SiO2(Co) exhibit unusual magnetic and magnetotransport properties which are strongly dependent on the composition of the film and material of a substrate. For example, the injection magnetoresistance (IMR) coefficient reaches a giant (GIMR) value of 105% at room temperature in SiO2(Co) films on an n-GaAs substrate. However, the IMR effect is negligible in the case of a similar granular film deposited on the n-Si substrate. In this report, the structural and magnetic properties of granular film SiO2(Co) on Si substrate are studied with the aim to understand the cause of the difference in IMR coefficients for SiO2(Co) thin film deposited on n-GaAs and on n-Si substrates. Investigations were carried out using complementary methods of Polarized Neutron Reflectometry, Grazing Incidence Small-Angle X-ray Scattering, X-ray Reflectometry, Scanning Electron Microscope, and SQUID magnetometry. It is shown that the interface layer between the granular film and Si substrate exhibits metallic rather than magnetic properties and eliminates the GIMR effect. This interface layer is associated with the Si diffusion to Co nanoparticles and the formation of the metallic cobalt silicides.

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A. I. Stognij

Spin-wave filters based on thin Y3Fe5O12 films on Gd3Ga5O12 and Si substrates for microwave applications

Surface Plasmon-Enhanced Photomagnetic Excitation of Spin Dynamics in Au/YIG:Co Magneto-Plasmonic Crystals

The Synthesis of Metal Oxide Films from Compound Powder Targets

Influence of Input Signal Power on Magnetostatic Surface Waves Propagation in Yttrium-Iron Garnet Films on Silicon Substrates

Mesostructure and Magnetic Properties of SiO2-Co Granular Film on Silicon Substrate

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