Spin wave propagation in a magnetron-sputtered CoFeB thin film is investigated. We apply both
in-plane and out-of-plane magnetic fields. At room temperature, we find velocities of up to 25 and
3.5 km/s, respectively. These values are much larger compared to a thin permalloy film. Analyzing
the resonance linewidth, we obtain an intrinsic Gilbert damping parameter of about 0.007 at room
temperature. It increases to 0.023 at 5 K. CoFeB is a promising material for magnonic devices
supporting fast propagating spin waves
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Spin wave propagation in a magnetron-sputtered CoFeB thin film is investigated. We apply both
in-plane and out-of-plane magnetic fields. At room temperature, we find velocities of up to 25 and
3.5 km/s, respectively. These values are much larger compared to a thin permalloy film. Analyzing
the resonance linewidth, we obtain an intrinsic Gilbert damping parameter of about 0.007 at room
temperature. It increases to 0.023 at 5 K. CoFeB is a promising material for magnonic devices
supporting fast p...
»
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