Spin-Torque Ferromagnetic Resonance Measurements of Damping in Nanomagnets

A. G. F. Garcia; D. C. Ralph; E. M. Ryan; G. D. Fuchs; J. C. Sankey; L. Qian; O. Ozatay; P. M. Braganca; R. A. Buhrman; V. S. Pribiag

arxiv: cond-mat/0703577 · v1 · submitted 2007-03-22 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall

Spin-Torque Ferromagnetic Resonance Measurements of Damping in Nanomagnets

G. D. Fuchs , J. C. Sankey , V. S. Pribiag , L. Qian , P. M. Braganca , A. G. F. Garcia , E. M. Ryan , Zhi-Pan Li

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O. Ozatay D. C. Ralph R. A. Buhrman

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classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hall

keywords dampingmagneticnanomagnetsalphacofebferromagneticmeasurementsresonance

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We measure the magnetic damping parameter a in thin film CoFeB and permalloy (Py) nanomagnets at room temperature using ferromagnetic resonance driven by microwave frequency spin-transfer torque. We obtain $\alpha_{CoFeB} = 0.014 \pm 0.003$ and $\alpha_{Py}=0.010 \pm 0.002$, values comparable to measurements for extended thin films, but significantly less than the effective damping determined previously for similar nanomagnets by fits to time-domain studies of large-angle magnetic excitations and magnetic reversal. The greater damping found for the large amplitude nanomagnet dynamics is attributed to the nonlinear excitation of non-uniform magnetic modes.

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Spin-Torque Ferromagnetic Resonance Measurements of Damping in Nanomagnets

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