The Influence of the Magnetic Field on Electrically Induced Domain Wall Motion

D.A. Sechin; E.P. Nikolaeva; A.P. Pyatakov; A.B. Nikolaev; T.B. Kosykh

doi:10.4028/www.scientific.net/SSP.233-234.443

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HomeSolid State PhenomenaSolid State Phenomena Vols. 233-234The Influence of the Magnetic Field on...

The Influence of the Magnetic Field on Electrically Induced Domain Wall Motion

Abstract:

Domain walls in iron garnet films demonstrate magnetoelectric properties that manifest themselves as a displacement induced by inhomogeneous electric field. In this paper the results of the study of electric field induced domain wall dynamics and its dependence on external magnetic field are presented. The measured velocity of the electrically induced domain wall motion increased by an order with the magnetic field applied perpendicular to the domain wall plane. The numerical simulation shows that the observed behaviour of the domain wall can be explained by magnetic field induced modification of its internal micromagnetic structure and enhancement of the electric polarization associated with the wall.

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Solid State Phenomena (Volumes 233-234)

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443-446

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https://doi.org/10.4028/www.scientific.net/SSP.233-234.443

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Online since:

July 2015

Authors:

D.A. Sechin, E.P. Nikolaeva*, A.P. Pyatakov, A.B. Nikolaev, T.B. Kosykh

Keywords:

Domain Wall Motion, Ferrite Garnet Films, Magnetoelectric Effect

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References

[1] A. Sparavigna, A. Strigazzi, A. Zvezdin: Phys. Rev. B Vol. 50 (1994), p.2953.

Google Scholar

[2] M. Mostovoy: Phys. Rev. Lett. Vol. 96 (2006), p.067601.

Google Scholar

[3] V. G. Bar'yakhtar, V. A. L'vov, D. A. Yablonskii. JETP Letters. Vol. 37 (1983), p.673.

Google Scholar

[4] A.S. Logginov , G.A. Meshkov , A.V. Nikolaev , A.P. Pyatakov. JETP Letters. Vol. 86. N2 (2007), p.115.

Google Scholar

[5] Logginov A.S., Meshkov G.A., Nikolaev A.V., Nikolaeva E.P., Pyatakov A.P., Zvezdin A.K. APL, Vol 93 (2008), p.182510.

Google Scholar

[6] A.S. Sergeev, D.A. Sechin, O.B. Pavlenko, E.P. Nikolaeva, A.B. Nikolaev, T.B. Kosykh, A.P. Pyatakov, Izvestiya RAN, seriya Physicheskaya, Vol. 772013, N10 (2013), p.1541.

Google Scholar

[7] A.P. Pyatakov, D.A. Sechin., A.S. Sergeev, A. V Nikolaev, E.P. Nikolaeva, A.S. Logginov, A.K. Zvezdin. Europhysics Letters, Vol. 93, (2011), p.17001.

DOI: 10.1209/0295-5075/93/17001

Google Scholar

[8] Balbashov A.M., Logginov A.S., Shabaeva E.P. Sov. Phys. Tech. Phys. Vol. 36 (1991), p.680.

Google Scholar

[9] A.P. Pyatakov, A.K. Zvezdin, A.M. Vlasov, A.S. Sergeev, D. A Sechin., E.P. Nikolaeva, A.V. Nikolaev, H. Chou, S.J. Sun, L.E. Calvet. Ferroelectrics. Vol 438 (2012), p.79.

DOI: 10.1080/00150193.2012.743836

Google Scholar

[10] T. Fischbacher, M. Franchin, G. Bordignon et al. Magnetics, IEEE Transactions, Vol. 43 (2007), p.2896–2898.

Google Scholar

[11] T. Fischbacher, M Franchin, H. Fangohr. Journal of Applied Physics, Vol. 109, 07D352 (2011).

DOI: 10.1063/1.3565999

Google Scholar