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Wolfgang Kreuzpaintner
Researcher at Technische Universität München
Publications - 35
Citations - 475
Wolfgang Kreuzpaintner is an academic researcher from Technische Universität München. The author has contributed to research in topics: Neutron reflectometry & Neutron. The author has an hindex of 9, co-authored 27 publications receiving 326 citations. Previous affiliations of Wolfgang Kreuzpaintner include Technion – Israel Institute of Technology & Chinese Academy of Sciences.
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Journal ArticleDOI
Two-Dimensional Magnets: Forgotten History and Recent Progress towards Spintronic Applications
David L Cortie,Grace L. Causer,Kirrily C. Rule,Kirrily C. Rule,Helmut Fritzsche,Wolfgang Kreuzpaintner,Frank Klose +6 more
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Anisotropic Interface Magnetoresistance in Pt / Co / Pt Sandwiches
A. Kobs,S. Heße,Wolfgang Kreuzpaintner,G. Winkler,D. Lott,P. Weinberger,Andreas Schreyer,Hans Peter Oepen +7 more
TL;DR: The Co thickness dependence of the effect of reduced dimensionality on the magnetotransport in cobalt layers sandwiched by platinum clearly points out that the mechanism behind this effect originates at the Co/Pt interfaces and is disparate to the texture induced geometric size effect.
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Spin-Resolved Fermi Surface of the Localized Ferromagnetic Heusler Compound Cu 2 MnAl Measured with Spin-Polarized Positron Annihilation
Josef Weber,Andreas Bauer,Peter Böni,Hubert Ceeh,Stephen B Dugdale,David Ernsting,Wolfgang Kreuzpaintner,Michael Leitner,Christian Pfleiderer,Christoph Hugenschmidt +9 more
TL;DR: A new algorithm for reconstructing 3D densities from projections is introduced that allows us to corroborate the excellent agreement between electronic structure calculations and the experimental data.
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Exchange-bias-like coupling in a ferrimagnetic Fe/Tb multilayer
TL;DR: In this article, a transition metal-rare earth (TM-RE) Fe/Tb-multilayer system is shown to form a double hysteresis loop with exchange bias-like shifts along and opposite to the field cooling axis below the ordering temperature of the RE.
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Realizing topological stability of magnetic helices in exchange-coupled multilayers for all-spin-based system.
Sergej Fust,Saumya Mukherjee,Neelima Paul,Jochen Stahn,Wolfgang Kreuzpaintner,Peter Böni,Amitesh Paul +6 more
TL;DR: The exchange coupling and helical phase characteristics within Dy-Fe multilayers open broad perspectives for future scientific and technological applications in increasing the energy density for systems in the field of all-spin-based engineering which has the potential for energy-storing elements on nanometer length scales.