Please enter verification code
Confirm
Inverse Magnetoelectric Effect in Disk Samples of Ferrite–Piezoelectric Composites
Science Research
Volume 1, Issue 2, April 2013, Pages: 12-18
Received: Apr. 1, 2013; Published: Apr. 2, 2013
Views 3391      Downloads 150
Authors
D. A. Filippov, Novgorod State University, Russia, Velikii Novgorod
T. A. Galkina, Novgorod State University, Russia, Velikii Novgorod
V. M. Laletin, Institute of Technical Acoustics, Belarus, Vitebsk
Article Tools
PDF
Follow on us
Abstract
A theory of the inverse magnetoelectric (ME) effect in the region of electromechanical resonance (EMR) for the samples in the form of a disk is presented. The expression for the coefficient of inverse ME-conversion on the effective parameter method is derived. It is shown that observed the peak increase of effect in the region of electromechanical re-sonance, resonance frequencies are differed for direct and inverse magnetoelectric effect. Resonance frequencies dependence on ferrite percentage for ferrite-nickel spinel and lead zirconate titanate samples are investigated experimentally.
Keywords
Inverse Magnetoelectric Effect, Electromechanical Resonance
To cite this article
D. A. Filippov, T. A. Galkina, V. M. Laletin, Inverse Magnetoelectric Effect in Disk Samples of Ferrite–Piezoelectric Composites, Science Research. Vol. 1, No. 2, 2013, pp. 12-18. doi: 10.11648/j.sr.20130102.11
References
[1]
I. B. Dzyaloshinskii, Zh. Eksp. Teor. Fiz. 37, 882 (1959).
[2]
D. N. Astrov, Zh. Eksp. Teor. Fiz. 40, 1035 (1961).
[3]
V.J. Folen, G.T. Rado, E.W. Stalder. Phys. Rev. Lett. 6, 607 (1961).
[4]
Е.А.Turov. Physics-Uspekhi 164, 325 (1994).
[5]
Antonenkov O.V., Nikiforov I.S., Filippov D.A. Ferroelectrics. 279, 57 (2002).
[6]
M. Fiebig. J. Phys. D: Appl. Phys. 38, 123 (2005).
[7]
S. Dong, J.F. Li, D.Viehland, J. Cheng, L.E. Cross. Appl. Phys. Lett. 85, 3534 (2004).
[8]
Y.K. Fetisov, V.M. Petrov, G. Srinivasan. J. Mater. Res. 22, 2074 (2007).
[9]
A. A. Bush, K. E. Kamentsev, V. F. Meshcheryakov, Y. K. Fetisov, D. V. Chashin and L. Y. Fetisov, Zh. Tekh. Fiz. 79 (9), 71 (2009).
[10]
Y.K. Fetisov, K.E. Kamentsev, D.V. Chashin, L.Y. Fetisov, G. Srinivasan. J. Appl. Phys. 105, 123918 (2009).
[11]
D.А. Filippov, Т.А. Galkina, G. Srinivasan. Pis’ma Zh. Tekh. 36, 21, 23 (2010).
[12]
G. Harshe, J.O. Dougherty, R. E. Newnham. Int. J. Appl. Electromagn. Mater. 4. 145 (1993).
[13]
G. Harshe, J.P. Dougherty, R.E. Newnham. Int. J. Appl. Electromagn. Mater. 4. 161 (1993).
[14]
M.I. Bichurin, V.M. Petrov, G. Srinivasan. Phys. Rev. B. 68. 054402 (2003).
[15]
M.I. Bichurin, V.M. Petrov, D.А. Filippov, V.М. Laletin, G. Srinivasan. Perspectivnye materialy №6, 5 (2004).
[16]
W.P. Mazon. Phys. Rev. 74, 1134 (1948).
[17]
D.А. Filippov, M.I. Bichurin, V.M. Petrov, V.М. Laletin, G. Srinivasan. FТТ, 46, 9, 1621 (2004).
ADDRESS
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
U.S.A.
Tel: (001)347-983-5186