Abstract:
The features of the manifestation of the flexo-magnetoelectric effect in magnetically uniaxial films under the local influence of an electric field on their surface are investigated. It is shown that with its increasing influence, there is a gradual transformation of the structure of the 180∘∘ domain boundary from the Bloch to the quasi-Bloch, and at a certain field value to the Néel boundary. It was revealed that in large fields it is possible to nucleate a 0∘ domain boundary with a non-Bloch structure, the laws of which have analogies with the formation of magnetic inhomogeneities on defects of the “potential well” type. The contribution of the partial parts of the inhomogeneous magnetoelectric interaction due to the presence of divm and curlm in the phenomena under consideration is also determined.
Citation:
R. M. Vakhitov, Z. V. Gareeva, R. V. Solonetskii, F. A. Mazhitova, “Micromagnetic structures induced by an inhomogeneous electric field in magnetically uniaxial films with a flexo-magnetoelectric effect”, Fizika Tverdogo Tela, 61:6 (2019), 1120–1127; Phys. Solid State, 61:6 (2019), 1043–1051
\Bibitem{VakGarSol19}
\by R.~M.~Vakhitov, Z.~V.~Gareeva, R.~V.~Solonetskii, F.~A.~Mazhitova
\paper Micromagnetic structures induced by an inhomogeneous electric field in magnetically uniaxial films with a flexo-magnetoelectric effect
\jour Fizika Tverdogo Tela
\yr 2019
\vol 61
\issue 6
\pages 1120--1127
\mathnet{http://mi.mathnet.ru/ftt8790}
\crossref{https://doi.org/10.21883/FTT.2019.06.47688.348}
\elib{https://elibrary.ru/item.asp?id=39133777}
\transl
\jour Phys. Solid State
\yr 2019
\vol 61
\issue 6
\pages 1043--1051
\crossref{https://doi.org/10.1134/S106378341906026X}
Linking options:
https://www.mathnet.ru/eng/ftt8790
https://www.mathnet.ru/eng/ftt/v61/i6/p1120
This publication is cited in the following 14 articles:
E B Magadeev, R M Vakhitov, “Effect of electric field on vortex-like structures in a planar magnet”, Phys. Scr., 100:1 (2025), 015535
E B Magadeev, R M Vakhitov, “Edge effects in a planar magnet caused by the impact of an electric field”, J. Phys.: Condens. Matter, 37:14 (2025), 145803
R M Vakhitov, A R Nizyamova, R V Solonetsky, “Influence of the magnetic field on the nucleation and properties of 0-degree domain walls in uniaxial films with inhomogeneous magnetoelectric interaction”, J. Phys.: Condens. Matter, 36:19 (2024), 195804
E. B. Magadeev, R. M. Vakhitov, “VLIYaNIE ODNORODNOGO ELEKTRIChESKOGO POLYa NA VIKhREPODOBNYE MAGNITNYE STRUKTURY V PERFORIROVANNYKh PLENKAKh”, Žurnal èksperimentalʹnoj i teoretičeskoj fiziki, 165:5 (2024), 673
N. V. Myasnikov, A. P. Pyatakov, “Simulation of Phase Shift of Spin Waves Passing through an Electrically Controlled Domain Wall”, Bull. Russ. Acad. Sci. Phys., 88:S1 (2024), S53
R. M. Vakhitov, R. V. Solonetskii, A. R. Nizyamova, “The Features of the Flexomagnetoelectric Effect in an External Magnetic Field”, Fizika metallov i metallovedenie, 124:1 (2023), 10
E.B. Magadeev, R.M. Vakhitov, “Effect of inhomogeneous magnetoelectric interaction on flat magnetic structures”, Journal of Magnetism and Magnetic Materials, 587 (2023), 171230
R. M. Vakhitov, R. V. Solonetskii, A. R. Nizyamova, “The Features of the Flexomagnetoelectric Effect in an External Magnetic Field”, Phys. Metals Metallogr., 124:1 (2023), 8
E. B. Magadeev, R. M. Vakhitov, “Nonreciprocity of the flexomagnetoelectric effect with respect to the sign of affecting charges”, JETP Letters, 118:6 (2023), 443–447
R M Vakhitov, A R Yumaguzin, G T Gridneva, “Influence of an external electric field on the structure and properties of domain walls in a (111)-oriented ferrite-garnet film”, Phys. Scr., 98:12 (2023), 125988
R. M. Vakhitov, R. V. Solonetsky, V. R. Gurjanova, A. R. Nizjamova, D. A. Sechin, T. T. Gareev, A. P. Pyatakov, “Magnetic-field tuning of domain-wall multiferroicity”, Phys. Rev. B, 104:14 (2021)
R. M. Vakhitov, F. A. Maksutova, R. V. Solonetsky, Z. V. Gareeva, A. P. Pyatakov, “Mechanisms of the Electric Field-Induced Displacement and Transformation of Magnetic Domain Boundaries”, Bull. Russ. Acad. Sci. Phys., 84:5 (2020), 536