1975
DOI: 10.1063/1.321489
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Frequency dependence of the parallel and perpendicular ferromagnetic resonance linewidth in Permalloy films, 2-36 GHz

Abstract: Ferromagnetic resonance linewidth data for 75% Ni-25% Fe evaporated thin films at 2–36 GHz for both parallel and perpendicular orientations show that the two linewidths are the same and increase linearly with frequency above 10 GHz. At lower frequencies the parallel linewidth is in accord with the high-frequency behavior, but the perpendicular linewidth levels off at 10–30 Oe. These data suggest that the high-frequency relaxation is characteristic of a Landau-Lifshitz λ-type process but that the low-frequency … Show more

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Cited by 63 publications
(27 citation statements)
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“…2. With the increase of the thickness, G value shows continuous decrease down to the value for thickness of 15 nm which is almost comparable to the bulk value [8]. Similar study has been carried out by S.Mizukami et al [9], their G value for the thin Ta sandwiched NiFe films was nearly independent of the thickness of the NiFe layer.…”
Section: Methodssupporting
confidence: 70%
“…2. With the increase of the thickness, G value shows continuous decrease down to the value for thickness of 15 nm which is almost comparable to the bulk value [8]. Similar study has been carried out by S.Mizukami et al [9], their G value for the thin Ta sandwiched NiFe films was nearly independent of the thickness of the NiFe layer.…”
Section: Methodssupporting
confidence: 70%
“…The linewidth of the resonance signal for t ¼ 128 Å was % 50 Oe for parallel configuration and % 70 Oe for perpendicular configuration. The resulting from both monolayer and bilayer series fitting values for g=2p are 2.92 GHz/kOe (i.e., g ¼ 2:09) for samples with t ¼ 21 Å and 35 Å , and 2.94 GHz/kOe (i.e., g ¼ 2:10) for the others, the latter value being typical for bulk NiFe [18]. The saturation magnetization was obtained through SQUID measurements of the bilayer samples assuming that the two FM layers have one and the same saturation magnetization.…”
Section: Resultsmentioning
confidence: 99%
“…The factor 1͞d does not reflect an intrinsic effect; a reduced total magnetization is simply more sensitive to a given spin-current loss at the interface. Comparing with the intrinsic a 0 ഠ 0.006 of permalloy [12,21] the spin-current induced damping becomes important for ferromagnetic layers with thickness d , 100 Å. We can refine the estimate by including the significant film-thickness dependence of the magnetization measured by the same group [12].…”
mentioning
confidence: 99%