Magnetic Damping in Polycrystalline Thin-Film Fe − V Alloys

Here, we report on the magnetic damping properties of polycrystalline Fe-V alloy thin films that are deposited at room temperature. By varying the concentration of V in the alloy, the saturation magnetization can be adjusted from that of Fe to near zero.We show that exceptionally low values of the d...

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Bibliographic Details
Published in:Physical review applied 2021-05, Vol.15 (5), Article 054031
Main Authors: Arora, Monika, Delczeg-Czirjak, Erna K., Riley, Grant, Silva, T.J., Nembach, Hans T., Eriksson, Olle, Shaw, Justin M.
Format: Article
Language:English
Subjects:
MATERIALS SCIENCE
Physics
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Summary:Here, we report on the magnetic damping properties of polycrystalline Fe-V alloy thin films that are deposited at room temperature. By varying the concentration of V in the alloy, the saturation magnetization can be adjusted from that of Fe to near zero.We show that exceptionally low values of the damping parameter can be maintained over the majority of this range, with a minimum damping at approximately 15%–20% V concentration. Such a minimum is qualitatively reproduced with ab initio calculations of the damping parameter, although at a concentration closer to 10% V. The measured intrinsic damping has a minimum value of (1.53±0.08)×10–3, which is approximately a factor of 3 higher than our calculated value of 0.48×10–3. From first-principles theory, we outline the factors that are mainly responsible for the trend of the damping parameter in these alloys. In particular, the band structure and resulting damping mechanism is shown to change at V concentrations greater than approximately 35% V content.
ISSN:2331-7019
2331-7019
DOI:10.1103/PhysRevApplied.15.054031