Journal of Electromagnetic Analysis and Applications

Volume 2, Issue 5 (May 2010)

ISSN Print: 1942-0730   ISSN Online: 1942-0749

Google-based Impact Factor: 0.55  Citations  h5-index & Ranking

First Evidence of Surface SH-Wave Propagation in Cubic Piezomagnetics

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DOI: 10.4236/jemaa.2010.25037    4,946 Downloads   10,222 Views  Citations
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ABSTRACT

This theoretical work provides with results of characteristics calculation of the ultrasonic surface Zakharenko waves (USZWs) existing in piezomagnetic cubic monocrystals of class m3m that can be readily used for non-destructive testing. The piezomagnetic waves propagate in direction [101] corresponding to relatively easy magnetization for the following piezomagnetics: Galfenol, Terfenol-D, and CoFe2O4 with cubic structures. The phase velocities of the USZW-waves and the coefficient of magnetomechanical coupling (CMMC) K2 were calculated for the crystals. It was found that the coefficient K2 for piezomagnetics with Km2 > 1/3 and Km2 >> 1/3 is about 8% to 9%, where K2 = 2 (VUSZW,o – VUSZW,c)/VUSZW,o and Km2 = h2/(Cμ). Knowledge of piezomagnetic properties of cubic crystals makes possible the use of them in new products utilizing the phenomenon called the magnetoelectric effect. Also, this study is useful for possible application of cubic piezomagnetics in composite structures consisting of piezoelectric and (or) piezomagnetic materials and in the microwave technology. This broadens choice of possible piezomagnetic materials for utilization in various technical devices.

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A. Zakharenko, "First Evidence of Surface SH-Wave Propagation in Cubic Piezomagnetics," Journal of Electromagnetic Analysis and Applications, Vol. 2 No. 5, 2010, pp. 287-296. doi: 10.4236/jemaa.2010.25037.

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[15] This work has been fulfilled within the International Institute of Zakharenko Waves by ALEKSEY ANATOLIEVICH ZAKHARENKO
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