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Gilbert damping of [Co/Pd]n/Py multilayer thin films

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arxiv 1808.06515 v2 pith:VGOQCRUS submitted 2018-08-20 physics.app-ph

Gilbert damping of [Co/Pd]n/Py multilayer thin films

classification physics.app-ph
keywords dampinggilbertmultilayerfilmsexchange-coupledincreasesnumberrepetitions
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Understanding the Gilbert damping in exchange-coupled multilayer materials is particularly important to develop future fast switching spintronics devices. Here, we report an experimental investigation of temperature-dependent Gilbert damping in [Co/Pd]n/Py multilayer films of varying the number of Co/Pd repetitions by ferromagnetic resonance. The results demonstrate that three independent contributions to the Gilbert damping are identified, namely the intrinsic Gilbert damping, the inhomogeneous linewidth broadening and the two-magnon scattering contribution. Of particular interest, the two-magnon scattering intensity increases as the enlargement of number repetitions of Co/Pd due to the larger pinning effect at the interface between Py and the Co/Pd layers. The Gilbert damping increases monotonically as the temperature decreases from 300K to 50K. Our findings open the door to comprehend the physical origin of the Gilbert damping in ultrathin exchange-coupled multilayer films.

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