D. A. Filippov, G. S. Radchenko, T. O. Firsova, T. A. Galkina, “A theory of the inverse magnetoelectric effect in layered magnetostrictive–piezoelectric structures”, Fizika Tverdogo Tela, 59:5 (2017), 859–864; Phys. Solid State, 59:5 (2017), 878

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Fizika Tverdogo Tela, 2017, Volume 59, Issue 5, Pages 859–864
DOI: https://doi.org/10.21883/FTT.2017.05.44371.272 (Mi ftt9572)

This article is cited in 6 scientific papers (total in 6 papers)

Magnetism

A theory of the inverse magnetoelectric effect in layered magnetostrictive–piezoelectric structures

D. A. Filippov^a, G. S. Radchenko^bc, T. O. Firsova^a, T. A. Galkina^a

^a Yaroslav-the-Wise Novgorod State University
^b Southern Federal University, Rostov-on-Don
^c Research Institute of Physics, Southern Federal University

Full-text PDF (396 kB) Citations (6)

DOI: https://doi.org/10.21883/FTT.2017.05.44371.272

Abstract: A theory of the inverse magnetoelectric effect in layered structures has been presented. The theory is based on solving the equations of elastodynamics and electrostatics separately for the magnetostrictive and piezoelectric phases, taking into account the conditions at the interface between the phases. Expressions for the coefficient of inverse magnetoelectric conversion through the parameters characterizing the magnetostrictive and piezoelectric phases have been obtained. Theoretical dependences of the inverse magnetoelectric conversion coefficient on the frequency of the alternating-current electric field for the three-layer PZT–Ni–PZT structure and the two-layer terfenol-

$D$ –PZT structure have been calculated. The results of the calculations are in good agreement with the experimental data.

Received: 04.07.2016
Revised: 04.10.2016

English version:
Physics of the Solid State, 2017, Volume 59, Issue 5, Pages 878–884
DOI: https://doi.org/10.1134/S1063783417050122

Bibliographic databases:

Document Type: Article

Language: Russian

Citation: D. A. Filippov, G. S. Radchenko, T. O. Firsova, T. A. Galkina, “A theory of the inverse magnetoelectric effect in layered magnetostrictive–piezoelectric structures”, Fizika Tverdogo Tela, 59:5 (2017), 859–864; Phys. Solid State, 59:5 (2017), 878–884

Citation in format AMSBIB

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\issue 5

\pages 859--864

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\crossref{https://doi.org/10.21883/FTT.2017.05.44371.272}

\elib{https://elibrary.ru/item.asp?id=29405080}

\transl

\jour Phys. Solid State

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\vol 59

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Linking options:

https://www.mathnet.ru/eng/ftt9572

https://www.mathnet.ru/eng/ftt/v59/i5/p859

This publication is cited in the following 6 articles:

Wenzhou Lin, Yuchen Wei, Xupeng Wang, Kangjia Zhai, Xiaomin Ji, “Study on Human Motion Energy Harvesting Devices: A Review”, Machines, 11:10 (2023), 977
A.V. Kalgin, I.Y. Kobyakov, “Magnetoelectric response and internal friction in two-layer ceramic composites based on Mn0.4Zn0.6Fe2O4 magnetostrictor and PbZr0.53Ti0.47O3 piezoelectric”, Journal of Alloys and Compounds, 899 (2022), 163318
Giancarlo Consolo, Salvatore Federico, Giovanna Valenti, “Magnetostriction in transversely isotropic hexagonal crystals”, Phys. Rev. B, 101:1 (2020)
Jitao Zhang, Dongyu Chen, D A Filippov, Shengtao Geng, Kang Li, Qingfang Zhang, Liying Jiang, Xiaolei Wang, Weiwei Zhu, Lingzhi Cao, Gopalan Srinivasan, “Theory of tunable magnetoelectric inductors in ferrite-piezoelectric layered composite”, J. Phys. D: Appl. Phys., 52:16 (2019), 165001
Xiaoli Zhang, Xi Yao, Jian-Ping Zhou, Zupei Yang, “Comprehensive investigation on direct and converse magnetoelectric effects in longitudinally magnetized and polarized laminate composites by equivalent circuit and experiments”, J Mater Sci: Mater Electron, 29:20 (2018), 17706
L. Y. Fetisov, D. V. Chashin, D. A. Burdin, D. V. Saveliev, N. A. Ekonomov, G. Srinivasan, Y. K. Fetisov, “Nonlinear converse magnetoelectric effects in a ferromagnetic-piezoelectric bilayer”, Applied Physics Letters, 113:21 (2018)

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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