K
K. Baberschke
Researcher at Free University of Berlin
Publications - 342
Citations - 9665
K. Baberschke is an academic researcher from Free University of Berlin. The author has contributed to research in topics: Magnetization & Magnetic anisotropy. The author has an hindex of 48, co-authored 342 publications receiving 9332 citations. Previous affiliations of K. Baberschke include University of Washington & University of Paris.
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Full correction of the self-absorption in soft-fluorescence extended x-ray-absorption fine structure.
TL;DR: This work studied the distortions in the FLEXAFS spectra through the self-absorption effect measuring the FleXafS of a NiO single crystal above the oxygen K edge for various detection geometries.
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Substrate-induced magnetic ordering and switching of iron porphyrin molecules.
Heiko Wende,Heiko Wende,Matthias Bernien,J. Luo,C. Sorg,N. Ponpandian,J. Kurde,J. Miguel,Marten Piantek,Xiaoying Xu,Ph. Eckhold,Wolfgang Kuch,K. Baberschke,Pooja M. Panchmatia,Biplab Sanyal,Peter M. Oppeneer,Olle Eriksson +16 more
TL;DR: The Fe magnetic moment can be rotated along directions in plane as well as out of plane by a magnetization reversal of the substrate, thereby opening up an avenue for spin-dependent molecular electronics.
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Crossover from in-plane to perpendicular magnetization in ultrathin ni/cu(001) films
B. Schulz,K. Baberschke +1 more
TL;DR: The easy axis of magnetization in Ni/Cu(001) films exhibits a crossover from in-plane to perpendicular orientation with increasing film thickness, which can be extrapolated from thin-film data.
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Dimensional crossover in ultrathin Ni(111) films on W(110).
Yi Li,K. Baberschke +1 more
TL;DR: IIn situR magnetic resonance measurements of ultrathin Ni(111) on W(110) prepared in ultrahigh vacuum find that the thickness dependence of the critical exponent \ensuremath{\beta} changes drastically from 0.30 to 0.13 between 7 and 5 monolayers.
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Spin dynamics in ferromagnets: Gilbert damping and two-magnon scattering
Kh. Zakeri,Jürgen Lindner,Igor Barsukov,Ralf Meckenstock,Michael Farle,U. von Hörsten,Heiko Wende,Werner Keune,J. Rocker,S. S. Kalarickal,Kilian Lenz,Wolfgang Kuch,K. Baberschke,Zdeněk Frait +13 more
TL;DR: In this paper, the magnetic relaxation processes following the dynamical excitation of the spin system of ferromagnets are investigated by ferromagnetic resonance (FMR) between 1 and $70\phantom{\rule{0.3em}{0ex}}\mathrm{GHz}$ using epitaxial Fe 3 films as a prototype system.