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Your search keyword '"Kuznetsova, Iren"' showing total 373 results
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373 results on '"Kuznetsova, Iren"'

1. Particle manipulations based on acoustic valley topological rainbow defect-state trapping

Author

Wu, Decai, Wu, Bowei, Ma, Tingfeng, Li, Shuanghuizhi, Kuznetsova, Iren, Nedospasov, Ilya, Su, Boyue, and Wang, Teng

Subjects
Physics - Classical Physics
Abstract

Acoustic microfluidic is an important technology in particle manipulations in biomedical analyses and detections. However, the particle-movement manipulations achieved by the standing surface acoustic wave is suitable for particles in a thin layer of fluids, however it is difficult to manipulate particles in deeper solutions due to the energy loss of surface acoustic waves. The traditional standing bulk wave method can realize the particle manipulation in deep solutions, but it cannot work properly for particle manipulation within a long distance due to the energy loss. In this work, the topological rainbow defect-state trapping is realized, the results show that an effect of point accumulation of acoustic pressure in the waveguide path exists, the position of maximum acoustic pressure can be adjusted flexibly by changing the frequency of the incident acoustic wave, based on which, long-distance movement and capture manipulations of particles in deep solution have been realized. The phenomenon presented in this work can provide a reliable method for manipulations of continuous long-distance particle movement and capture to meet the demand of multiple processing steps in biochemical analyses and detections. The experiment verification results will be presented in the near future.

Published
2024

5. Two-dimensional analysis of electrical behavior in composite semiconductor shell structures with magnetic field tuning.

Author

Wang, Tiqing, Zhu, Feng, Li, Peng, Xu, Zelin, Ma, Tingfeng, Kuznetsova, Iren, Dong, Bin, and Qian, Zhenghua

Subjects
DIFFERENTIAL quadrature method, IONIZATION energy, MAGNETIC field effects, ELECTRIC properties, MAGNETIC structure
Abstract

To precisely investigate the electric properties and reveal the intrinsic interaction mechanisms between multiple fields in the composite magneto-electric-semiconductor shell structure, two-dimensional analyses were conducted within the framework of the third-order shear deformation theory and the coupled field theory. The governing equations for the composite piezoelectric semiconductor (PS) shell structures were derived using the principle of virtual work. Field distributions of the composite PS shell structures were obtained by expanding basic field quantities into Fourier series along the width direction and using the differential quadrature method. Prior to analysis, the convergence and correctness of the adopted method were evaluated. Several numerical examples were presented to demonstrate how magnetic manipulation can tune electrical behavior. It was found that inhomogeneous shear strain induced by applied magnetic fields is the key factor affecting potential variation in the composite PS shells. The appearance of potential barriers and wells in the composite PS shell structure with an opposite c axis is explained thoroughly. Additionally, the effect of magnetic field non-uniformity on the composite PS shell structure was investigated using an equivalent body force model, offering valuable insights for designing thin-film devices. [ABSTRACT FROM AUTHOR]

Published
2024
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14. An Electronic "Tongue" Based on Multimode Multidirectional Acoustic Plate Wave Propagation.

Author

Ageykin, Nikita, Anisimkin, Vladimir, Smirnov, Andrey, Fionov, Alexander, Li, Peng, Qian, Zhenghua, Ma, Tingfeng, Awasthi, Kamlendra, and Kuznetsova, Iren

Subjects
ACOUSTIC wave propagation, ELECTRONIC tongues, SOUND waves, MONOSODIUM glutamate, AIRCRAFT fuels, TASTE perception
Abstract

This paper theoretically and experimentally demonstrates the possibility of detecting the five basic tastes (salt, sweet, sour, umami, and bitter) using a variety of higher-order acoustic waves propagating in piezoelectric plates. Aqueous solutions of sodium chloride (NaCl), glucose (C6H12O6), citric acid (C6H8O7), monosodium glutamate (C5H8NO4Na), and sagebrush were used as chemicals for the simulation of each taste. These liquids differed from each other in terms of their physical properties such as density, viscosity, electrical conductivity, and permittivity. As a total acoustic response to the simultaneous action of all liquid parameters on all acoustic modes in a given frequency range, a change in the propagation losses (ΔS12) of the specified wave compared with distilled water was used. Based on experimental measurements, the corresponding orientation histograms of the ΔS12 were plotted for different types of acoustic waves. It was found that these histograms for different substances are individual and differ in shape, area, and position of their extremes. Theoretically, it has been shown that the influence of different liquids on different acoustic modes is due to both the electrical and mechanical properties of the liquids themselves and the mechanical polarization of the corresponding modes. Despite the fact that the mechanical properties of the used liquids are close to each other, the attenuation of different modes in their presence is not only due to the difference in their electrical parameters. The proposed approach to creating a multi-parametric multimode acoustic electronic tongue and obtaining a set of histograms for typical liquids will allow for the development of devices for the operational analysis of food, medicines, gasoline, aircraft fuel, and other liquid substances without the need for detailed chemical analysis. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Macro-, Micro- and Nanosensors Based on Biological/Chemical Materials

Author

Kashin, Vadim Valer’evich, Kolesov, Vladimir Vladimirovich, Kuznetsova, Iren Evgenievna, Soldatov, Eugenii Sergeevich, Plekhanova, Yulia Victorovna, Tarasov, Sergei Evgenyevich, Kitova, Anna Evgenievna, Signore, Maria Assunta, Ingle, Avinash P., Rai, Mahendra, Reshetilov, Anatoly Nikolaevich, Rai, Mahendra, editor, Reshetilov, Anatoly, editor, Plekhanova, Yulia, editor, and Ingle, Avinash P, editor

Published
2021
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25. Multi-Parameter Characterization of Liquid-to-Ice Phase Transition Using Bulk Acoustic Waves.

Author

Smirnov, Andrey, Anisimkin, Vladimir, Voronova, Natalia, Kashin, Vadim, and Kuznetsova, Iren

Subjects
PHASE transitions, SOUND waves, ACOUSTIC surface waves, DISTILLED water
Abstract

The detection of the liquid-to-ice transition is an important challenge for many applications. In this paper, a method for multi-parameter characterization of the liquid-to-ice phase transition is proposed and tested. The method is based on the fundamental properties of bulk acoustic waves (BAWs). BAWs with shear vertical (SV) or shear horizontal (SH) polarization cannot propagate in liquids, only in solids such as ice. BAWs with longitudinal (L) polarization, however, can propagate in both liquids and solids, but with different velocities and attenuations. Velocities and attenuations for L-BAWs and SV-BAWs are measured in ice using parameters such as time delay and wave amplitude at a frequency range of 1–37 MHz. Based on these measurements, relevant parameters for Rayleigh surface acoustic waves and Poisson's modulus for ice are determined. The homogeneity of the ice sample is also detected along its length. A dual sensor has been developed and tested to analyze two-phase transitions in two liquids simultaneously. Distilled water and a 0.9% solution of NaCl in water were used as examples. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Electromechanical behaviors in piezotronic quantum wells based on a quantum-corrected phenomenological theory.

Author

Li, Nian, Fang, Kai, Li, Peng, Chen, Feng, Qian, Zhenghua, Kolesov, Vladimir, and Kuznetsova, Iren

Subjects
ELECTRIC potential, ELECTRON density, PIEZOELECTRICITY, ELECTROMECHANICAL effects, MOLE fraction, QUANTUM wells, SEMICONDUCTORS, ENGINEERING
Abstract

Piezotronic devices have attracted a great deal of attention due to their potential applications in self-powered tactile sensing, nano-device memory, human-electronic interface, etc. As the size of piezotronic devices shrinks, some interesting quantum effects begin to appear. In this paper, we establish a theory oriented to the engineering application of piezoelectric semiconductors, called quantum-corrected phenomenological (QCP) theory, by coupling the density-gradient theory and the linear piezoelectricity theory through Gauss's law. For numerical verification, we specifically studied the electromechanical behaviors in GaN/AlGaN heterostructure quantum wells (QWs) with both infinite and finite barrier height. The results of electron density, electric potential, and quantum potential are provided, and their dependence on the doping density, the applied stress, and the Al mole fraction is investigated. Some interesting quantum effects are revealed, and their influencing mechanisms are well investigated from a macroscopic perspective. Not only do the conclusions drawn in this paper enrich the fundamental understanding of the piezotronic effect in a QW structure, but also the proposed QCP theory can serve as a valuable tool for future device engineering. [ABSTRACT FROM AUTHOR]

Published
2022
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34. A novel wave tomography method for defect reconstruction with various arrays.

Author

Qian, Zhi, Li, Peng, Wang, Bin, Zhang, Yinghong, Qian, Zhenghua, Wu, Xianwei, Li, Xiangyu, and Kuznetsova, Iren

Subjects
PRINCIPAL components analysis, STRUCTURAL health monitoring, TOMOGRAPHY, NONDESTRUCTIVE testing, SURFACE plates, SURFACE defects
Abstract

In order to reconstruct the possible defects on the plate surface with arrays, a new wave tomography method based on the method of moments is established in this paper. According to the relationship between the probe number and grid amount, two algorithms, that is, the neural network and principal component analysis (PCA), are proposed and used to solve the ill-conditioned inversion equations. The neural network makes imaging feasible even if input data are not enough, and the PCA can greatly improve the computational efficiency via reducing the matrix dimension. Both numerical simulations and experimental measurements are conducted with the algorithm's correctness and high precision validated. After investigating the influence of probe number on imaging quality, it is demonstrated that the algorithm can exactly predict the defect location when the input scattering data is not enough or fewer probes are arranged. More probes are needed for reconstructing the specific shape and thickness, especially when multiple defects are included. The qualitative results and quantitative data are conducive to providing some reference for engineering applications in nondestructive testing and structural health monitoring. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Realization of Topological Valley Hall Edge States of Elastic Waves in Phononic Crystals Based on Material Differences

Author

Xu, Jiachao, primary, Zheng, Yuanzhen, additional, Ma, Tingfeng, additional, Chen, Hui, additional, Wu, Bowei, additional, Wang, Ji, additional, Li, Shuanghuizhi, additional, Kuznetsova, Iren, additional, Nedospasov, Ilya, additional, Du, Jianke, additional, Shi, Hao, additional, Chen, Dudu, additional, and Sun, Fei, additional

Published
2023
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