Picosecond inverse magnetostriction in galfenol thin films

Picosecond inverse magnetostriction in galfenol thin films

Coherent high-amplitude precession of the magnetization and spin waves with frequencies up to 40 GHz are generated by injecting picosecond compressive and shear acoustic pulses into nanometer-sized galfenol (Fe81Ga19) films. The magnetization modulation is due to the picosecond inverse magnetostrict...

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Veröffentlicht in:Applied physics letters 2013-07, Vol.103 (3)
Hauptverfasser: Jäger, J. V., Scherbakov, A. V., Linnik, T. L., Yakovlev, D. R., Wang, M., Wadley, P., Holy, V., Cavill, S. A., Akimov, A. V., Rushforth, A. W., Bayer, M.
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Sprache:eng
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Zusammenfassung:Coherent high-amplitude precession of the magnetization and spin waves with frequencies up to 40 GHz are generated by injecting picosecond compressive and shear acoustic pulses into nanometer-sized galfenol (Fe81Ga19) films. The magnetization modulation is due to the picosecond inverse magnetostrictive effect. The oscillations of the magnetization measured by magneto-optical Kerr rotation last for several nanoseconds, and the maximum modulation of the in-plane effective magnetic field is as high as 40 mT. These results in combination with a comprehensive theoretical analysis show that galfenol films possess excellent properties for ultrafast magnetization control based on the picosecond inverse magnetostrictive effect.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4816014