The angular dependence of magnetization dynamics induced by a GHz range strain pulse

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Abstract

The dynamics of magnetization is important in spintronics, where the coupling between phonon and magnon attracts much attention. In this work, we study the angular dependence of the coupling between longitudinal-wave phonon and magnon. We investigated the magnetization dynamics using the time-resolved magneto-optical Kerr effect, which allows measuring spin-wave resonances and the magnetic echo signal. The frequency, mode number, and amplitude of the spin-wave resonance change with the out-of-plane angle of the external magnetic field. The amplitude of the magnetic echo signal caused by the strain pulse also changes with the angle. We calculate these angular dependences based on the Landau-Lifshitz-Gilbert equation and find that the angles of the external field and magnetic moment are important factors for the phonon-magnon coupling when phonon propagates in the thickness direction under the out-of-plane magnetic field.

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Tojo, K., Nagakubo, A., & Ogi, H. (2022). The angular dependence of magnetization dynamics induced by a GHz range strain pulse. Japanese Journal of Applied Physics, 61(SG). https://doi.org/10.35848/1347-4065/ac4a04

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