Magnetization precession and damping in Co2FeSi Heusler alloy thin films
2019
Abstract Magnetization dynamics of Co 2 FeSi full Heusler alloy films have been investigated by time-resolved magneto-optical Kerr effect (TR-MOKE). For the samples grown at a substrate temperature ( T s ) lower than 350 °C, an obvious dual frequency phenomenon is found in the TR-MOKE signals due to the coexistence of a strong main precession mode and a weak additional mode. The amplitude of the additional high frequency mode decreases and becomes undetectable with increasing T s . On the contrary, the magnetic damping parameter α 0 measured at the highest external field of H = 15kOe is as low as 0.004 for low T s samples, it rises abruptly at T s > 350 °C and even reaches 0.023 at T s = 480 °C in spite of the improved atomic ordering. We attribute the greatly increased magnetic damping to the enhanced two-magnon scattering occurred at grain-grain boundaries. This study provides a comprehensive insight into the spin precession and magnetic damping behaviors of Heusler alloy films, which will be helpful for developing high frequency spintronic devices.
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