Günter Reiss
Bielefeld University
457 Papers
2.9K Citations
Günter Reiss is an academic researcher from Bielefeld University. The author has contributed to research in topics: Magnetoresistance & Magnetization. The author has an hindex of 51, co-authored 452 publications. Previous affiliations of Günter Reiss include IBM & Lawrence Berkeley National Laboratory.
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Papers
Spin-Transfer Torque Switching at Ultra Low Current Densities
Johannes Christian Leutenantsmeyer,Johannes Christian Leutenantsmeyer,Vladyslav Zbarsky,Vladyslav Zbarsky,Marvin von der Ehe,Steffen Wittrock,Patrick Peretzki,Henning Schuhmann,Andy Thomas,Karsten Rott,Günter Reiss,Tae Hee Kim,Michael Seibt,Markus Münzenberg +13 more
TL;DR: In this paper, the influence of the tantalum buffer layer on the magnetic anisotropy of perpendicular Co-Fe-B/MgO based magnetic tunnel junctions was studied using magneto-optical Kerr-spectroscopy.
24
Manipulation of magnetic nanoparticles by the strayfield of magnetically patterned ferromagnetic layers
Inga Ennen,V. Höink,Alexander Weddemann,Andreas Hütten,Jan-Michael Schmalhorst,Günter Reiss,C. Waltenberg,Peter Jutzi,T. Weis,Dieter Engel,Arno Ehresmann +10 more
TL;DR: In this paper, the selfassembly of 12 nm Co nanocrystallites under the influence of magnetic strayfields originating from a magnetically patterned 3 nm thick CoFe layer has been investigated.
24
Formation of metallic surface structures by ion etching using a S-layer template
TL;DR: In this article, a hexagonal pattern of uniform 10-nm wide dots and a lattice constant of 18 nm is fabricated from 2.5-nm-thick sputter deposited Co, FeCo, Fe, CoNi, and NiFe.
23
Evolution of barrier asymmetry in magnetic tunnel junctions
TL;DR: In this article, the authors show that the measured current/voltage characteristics of Co/Cu/Co/Al2O3/Co tunnel junctions develop a large asymmetry upon annealing at a temperature larger than 230°C.
23
In situ scanning-tunneling-microscopy studies of early-stage electromigration in Ag.
TL;DR: In situ studies of early-stage electromigration using scanning tunneling microscopy are reported, finding significant small-scale morphology changes occurred that were a result of the applied current.