Search Results - "Kubasov, Ilya V"

Self-Biased Bidomain LiNbO3/Ni/Metglas Magnetoelectric Current Sensor by Bichurin, Mirza I., Petrov, Roman V., Leontiev, Viktor S., Sokolov, Oleg V., Turutin, Andrei V., Kuts, Victor V., Kubasov, Ilya V., Kislyuk, Alexander M., Temirov, Alexander A., Malinkovich, Mikhail D., Parkhomenko, Yuriy N.

“…The article is devoted to the theoretical and experimental study of a magnetoelectric (ME) current sensor based on a gradient structure. It is known that the…”
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Magnetoelectric MEMS Magnetic Field Sensor Based on a Laminated Heterostructure of Bidomain Lithium Niobate and Metglas by Turutin, Andrei V, Skryleva, Elena A, Kubasov, Ilya V, Milovich, Filipp O, Temirov, Alexander A, Raketov, Kirill V, Kislyuk, Aleksandr M, Zhukov, Roman N, Senatulin, Boris R, Kuts, Victor V, Malinkovich, Mikhail D, Parkhomenko, Yuriy N, Sobolev, Nikolai A

“…Non-contact mapping of magnetic fields produced by the human heart muscle requires the application of arrays of miniature and highly sensitive magnetic field…”
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Low-Frequency Vibration Sensor with a Sub-nm Sensitivity Using a Bidomain Lithium Niobate Crystal by Kubasov, Ilya V, Kislyuk, Aleksandr M, Turutin, Andrei V, Bykov, Alexander S, Kiselev, Dmitry A, Temirov, Aleksandr A, Zhukov, Roman N, Sobolev, Nikolai A, Malinkovich, Mikhail D, Parkhomenko, Yuriy N

“…We present a low-frequency sensor for the detection of vibrations, with a sub-nm amplitude, based on a cantilever made of a single-crystalline lithium niobate…”
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Boosting Magnetoelectric Effect in Polymer-Based Nanocomposites by Omelyanchik, Alexander, Antipova, Valentina, Gritsenko, Christina, Kolesnikova, Valeria, Murzin, Dmitry, Han, Yilin, Turutin, Andrei V, Kubasov, Ilya V, Kislyuk, Alexander M, Ilina, Tatiana S, Kiselev, Dmitry A, Voronova, Marina I, Malinkovich, Mikhail D, Parkhomenko, Yuriy N, Silibin, Maxim, Kozlova, Elena N, Peddis, Davide, Levada, Kateryna, Makarova, Liudmila, Amirov, Abdulkarim, Rodionova, Valeria

“…Polymer-based magnetoelectric composite materials have attracted a lot of attention due to their high potential in various types of applications as magnetic…”
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Electrophysical properties, memristive and resistive switching of charged domain walls in lithium niobate by Kislyuk, Aleksandr M., Kubasov, Ilya V., Temirov, Alexander A., Turutin, Andrei V., Shportenko, Andrey S., Kuts, Viktor V., Malinkovich, Mikhail D.

“…Charged domain walls (CDWs) in ferroelectric materials raise both fundamental and practical interest due to their electrophysical properties differing from…”
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Detection of inhomogeneous magnetic fields using magnetoelectric composites by Kuts, Viktor V., Turutin, Andrei V., Kislyuk, Aleksandr M., Kubasov, Ilya V., Maksumova, Evelina E., Temirov, Alexander A., Malinkovich, Mikhail D., Sobolev, Nikolai A., Parkhomenko, Yuri N.

“…Magnetoelectric (ME) composites have a wide range of possible applications, especially as room-temperature sensors of weak magnetic fields in…”
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Synthesis of silicon-carbon films by induction-assisted plasma-chemical deposition by Temirov, Alexander A., Kubasov, Ilya V., Turutin, Andrei V., Ilina, Tatiana S., Kislyuk, Alexander M., Kiselev, Dmitry A., Skryleva, Elena A., Sobolev, Nikolai A., Salimon, Igor A., Batrameev, Nikolai V., Malinkovich, Mikhail D., Parkhomenko, Yuri N.

“…Silicon-carbon films are of great interest as diamond-like materials combining unique properties, e.g. high hardness, adhesion to a wide range of materials,…”
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Magnetoelectric effect in three-layered gradient LiNbO3/Ni/Metglas composites by Kuts, Viktor V., Turutin, Andrei V., Kislyuk, Aleksandr M., Kubasov, Ilya V., Zhukov, Roman N., Temirov, Alexander A., Malinkovich, Mikhail D., Sobolev, Nikolai A., Parkhomenko, Yuri N.

“…The effect of annealing in a permanent magnetic field on the magnitude of magnetoelectric coefficient in three-layered gradient magnetoelectric LiNbO 3…”
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Effect of contact phenomena on the electrical conductivity of reduced lithium niobate by Shportenko, Andrey S., Kislyuk, Alexander M., Turutin, Andrei V., Kubasov, Ilya V., Malinkovich, Mikhail D., Parkhomenko, Yuri N.

“…Lithium niobate is a ferroelectric material finding a wide range of applications in optical and acoustic engineering. Annealing of lithium niobate crystals in…”
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Degradation of the electrical conductivity of charged domain walls in reduced lithium niobate crystals by Kislyuk, Aleksandr M., Ilina, Tatiana S., Kubasov, Ilya V., Kiselev, Dmitry A., Temirov, Aleksandr A., Turutin, Andrei V., Shportenko, Andrey S., Malinkovich, Mikhail D., Parkhomenko, Yuri N.

“…In this work, the effect of long-term room temperature exposure on the electrical conductivity of the charged domain wall (CDWs) in nonpolar x -cut congruent…”
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Enhancement of piezoelectric properties of lithium niobate thin films by different annealing parameters by Zhukov, Roman N., Kushnerev, K.S., Kiselev, Dmitry A., Ilina, Tatiana S., Kubasov, Ilya V., Kislyuk, Alexander M., Malinkovich, Mikhail D., Parkhomenko, Yuri N.

“…Piezoelectric materials with useful properties find a wide range of applications including opto- and acousto- electronics. Lithium niobate in the form of a…”
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Tailoring of stable induced domains near a charged domain wall in lithium niobate by probe microscopy by Kislyuk, Alexander M., Ilina, Tatiana S., Kubasov, Ilya V., Kiselev, Dmitry A., Temirov, Alexander A., Turutin, Andrei V., Malinkovich, Mikhail D., Polisan, Andrey A., Parkhomenko, Yury N.

“…Ferroelectric lithium niobate (LiNbO 3 ) crystals with an engineered domain structure have a number of applications in optical systems for generation of…”
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Magnetoelectric metglas/bidomain y + 140°-cut lithium niobate composite for sensing fT magnetic fields by Turutin, Andrei V., Vidal, João V., Kubasov, Ilya V., Kislyuk, Alexander M., Malinkovich, Mikhail D., Parkhomenko, Yuriy N., Kobeleva, Svetlana P., Pakhomov, Oleg V., Kholkin, Andrei L., Sobolev, Nikolai A.

“…We investigated the magnetoelectric properties of a new laminate composite material based on y + 140°-cut congruent lithium niobate piezoelectric plates with…”
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Experimental Validation of One-Dimensional Model of an Ideal Bimorph Actuator Provided on Bidomain Lithium Niobate by Kubasov, Ilya V., Syrykh, Igor S., Turutin, Andrei V., Kislyuk, Aleksandr M., Kuts, Victor V., Temirov, Alexander A., Malinkovich, Mikhail D., Parkhomenko, Yuriy N.

“…[Display omitted] •Displacements and impedance of a cantilevered bidomain LiNbO3 crystal can be described by a 1D model of an ideal bimorph.•Solving the…”
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Dual Vibration and Magnetic Energy Harvesting With Bidomain LiNbO3-Based Composite by Vidal, Joao V., Turutin, Andrei V., Kubasov, Ilya V., Kislyuk, Alexander M., Kiselev, Dmitry A., Malinkovich, Mikhail D., Parkhomenko, Yuriy N., Kobeleva, Svetlana P., Sobolev, Nikolai A., Kholkin, Andrei L.

“…With the recent thriving of low-power electronic microdevices and sensors, the development of components capable of scavenging environmental energy has become…”
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Highly sensitive magnetic field sensor based on a metglas/bidomain lithium niobate composite shaped in form of a tuning fork by Turutin, Andrei V., Vidal, João V., Kubasov, Ilya V., Kislyuk, Alexander M., Kiselev, Dmitry A., Malinkovich, Mikhail D., Parkhomenko, Yuriy N., Kobeleva, Svetlana P., Kholkin, Andrei L., Sobolev, Nikolai A.

“…•Magnetoelectric sensor in form of a tuning-fork based on a bidomain lithium niobate and metglas.•Magnetoelectric sensor demonstrated an efficient suppression…”
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Low-Frequency Vibration Energy Harvesting With Bidomain LiNbO3 Single Crystals by Vidal, Joao V., Turutin, Andrei V., Kubasov, Ilya V., Kislyuk, Alexander M., Malinkovich, Mikhail D., Parkhomenko, Yury N., Kobeleva, Svetlana P., Pakhomov, Oleg V., Sobolev, Nikolai A., Kholkin, Andrei L.

“…Low-frequency vibration energy harvesting is becoming increasingly important for environmentally friendly and biomedical applications in order to power various…”
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Equivalent Magnetic Noise in Magnetoelectric Laminates Comprising Bidomain LiNbO3 Crystals by Vidal, Joao V., Turutin, Andrei V., Kubasov, Ilya V., Malinkovich, Mikhail D., Parkhomenko, Yurii N., Kobeleva, Svetlana P., Kholkin, Andrei L., Sobolev, Nikolai A.

“…The anisotropic direct magnetoelectric (ME) properties of bilayered composites comprising magnetostrictive metglas foils and single-crystalline piezoelectric…”
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Dual Vibration and Magnetic Energy Harvesting With Bidomain LiNbO 3 -Based Composite by Vidal, Joao V, Turutin, Andrei V, Kubasov, Ilya V, Kislyuk, Alexander M, Kiselev, Dmitry A, Malinkovich, Mikhail D, Parkhomenko, Yuriy N, Kobeleva, Svetlana P, Sobolev, Nikolai A, Kholkin, Andrei L

“…With the recent thriving of low-power electronic microdevices and sensors, the development of components capable of scavenging environmental energy has become…”
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Magnetoelectric Effect in the Bidomain Lithium Niobate/Nickel/Metglas Gradient Structure by Bichurin, Mirza I., Sokolov, Oleg V., Leontiev, Viktor S., Petrov, Roman V., Tatarenko, Alexander S., Semenov, Gennadiy A., Ivanov, Sergey N., Turutin, Andrei V., Kubasov, Ilya V., Kislyuk, Alexander M., Malinkovich, Mikhail D., Parkhomenko, Yuriy N., Kholkin, Andrei L., Sobolev, Nikolai A.

“…The paper describes the magnetoelectric (ME) effect in a gradient laminate structure consisting of a LiNbO3/Ni/metglas multilayer based on a bidomain lithium…”
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