Asymmetric magnetic bubble expansion under in-plane field in Pt/Co/Pt: Effect of interface engineering
Publication date
2015-03-17
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Abstract
We analyze the impact of growth conditions on the asymmetric magnetic bubble expansion under an in-plane field in ultrathin Pt/Co/Pt films. Specifically, using sputter deposition, we vary the Ar pressure during the growth of the top Pt layer. This induces a large change in the interfacial structure as evidenced by a factor three change in the effective perpendicular magnetic anisotropy. Strikingly, a discrepancy between the current theory for domain-wall propagation based on a simple domain-wall energy density and our experimental results is found. This calls for further theoretical development of domain-wall creep under in-plane fields and varying structural asymmetry.
Keywords
DOMAIN-WALLS, WEAK FERROMAGNETISM, DYNAMICS, FILMS, MULTILAYERS, SKYRMIONS, DRIVEN, CREEP
Citation
Lavrijsen, R, Hartmann, D M F, van den Brink, T, Yin, Y, Barcones, B, Duine, R A, Verheijen, M A, Swagten, H J M & Koopmans, B 2015, 'Asymmetric magnetic bubble expansion under in-plane field in Pt/Co/Pt : Effect of interface engineering', Physical Review B - Condensed Matter and Materials Physics, vol. 91, no. 10, 104414. https://doi.org/10.1103/PhysRevB.91.104414