2010
DOI: 10.1063/1.3431384
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Structural, magnetic, and transport properties of Permalloy for spintronic experiments

Abstract: Permalloy (Ni80Fe20) is broadly used to prepare magnetic nanostructures for high-frequency experiments where the magnetization is either excited by electrical currents or magnetic fields. Detailed knowledge of the material properties is mandatory for thorough understanding its magnetization dynamics. In this work, thin Permalloy films are grown by dc-magnetron sputtering on heated substrates and by thermal evaporation with subsequent annealing. The specific resistance is determined by van der Pauw methods. Poi… Show more

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Cited by 67 publications
(39 citation statements)
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“…This result reinforces the importance of looking at the cross section of the nanostripe in order to do a rough comparison of different experimental results, even if the material properties are considered the same. In any case, the resistivity of the Py nanostripe can change significantly depending on the deposition method and conditions [25,26]. Therefore, a comparison at a glance between different experimental results can be very challenging.…”
Section: Discussionmentioning
confidence: 99%
“…This result reinforces the importance of looking at the cross section of the nanostripe in order to do a rough comparison of different experimental results, even if the material properties are considered the same. In any case, the resistivity of the Py nanostripe can change significantly depending on the deposition method and conditions [25,26]. Therefore, a comparison at a glance between different experimental results can be very challenging.…”
Section: Discussionmentioning
confidence: 99%
“…The only parameter that is at this point arbitrary is the damping, here chosen to be λ = 0.1, which is not actually known for the case of Co monoatomic chains on Pt. In permalloy, for example, the damping is one order of magnitude smaller [46]. However, Pt is characterized by a much stronger spin-orbit coupling, which can enhance the damping (for example, FePt nanoparticles are reported to have a damping parameter as high as 0.76 [47]).…”
Section: For Co Chains On Ptmentioning
confidence: 99%
“…[ 22 ] 3. Spin-Structured Multilayers: Sequential Layer Switching and Crossed Magnetic Easy Axes Remarkably, this tuning procedure can be employed to fabricate not only single layers but also multilayered materials with precisely adjusted switching fi elds and arbitrarily aligned magnetic easy axes.…”
Section: Magnetic Anisotropy Control In Single Films Via Oblique Incimentioning
confidence: 99%