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Journal Articles Journal of Applied Physics Year : 2014

Ferromagnetic resonance of a magnetic dimer with dipolar coupling


We develop a general formalism for analyzing the ferromagnetic resonance characteristics of a magnetic dimer consisting of two magnetic elements (in a horizontal or vertical configuration) coupled by dipolar interaction, taking account of their finite-size and aspect ratio. We study the effect on the resonance frequency and resonance field of the applied magnetic field (in amplitude and direction), the inter-element coupling, and the uniaxial anisotropy in various configurations. We obtain analytical expressions for the resonance frequency in various regimes of the interlayer coupling. We (numerically) investigate the behavior of the resonance field in the corresponding regimes. The critical value of the applied magnetic field at which the resonance frequency vanishes may be an increasing or a decreasing function of the dimer's coupling, depending on the anisotropy configuration. It is also a function of the nanomagnets aspect ratio in the case of in-plane anisotropy. This and several other results of this work, when compared with experiments using the standard ferromagnetic resonance with fixed frequency, or the network analyzer with varying frequency and applied magnetic field, provide a useful means for characterizing the effective anisotropy and coupling within systems of stacked or assembled nanomagnets.

Dates and versions

hal-01178167 , version 1 (17-07-2015)



A. F. Franco, J. L. Déjardin, H. Kachkachi. Ferromagnetic resonance of a magnetic dimer with dipolar coupling. Journal of Applied Physics, 2014, 116 (24), pp.243905. ⟨10.1063/1.4904750⟩. ⟨hal-01178167⟩
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