T
T. Schneider
Researcher at Helmholtz-Zentrum Dresden-Rossendorf
Publications - 21
Citations - 2098
T. Schneider is an academic researcher from Helmholtz-Zentrum Dresden-Rossendorf. The author has contributed to research in topics: Spin wave & Spin-½. The author has an hindex of 12, co-authored 21 publications receiving 1787 citations.
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Realization of spin-wave logic gates
TL;DR: In this paper, the authors demonstrate the functionality of spin-wave logic exclusive not-OR and not-AND gates based on a Mach-Zehnder-type interferometer which has arms implemented as sections of ferrite film spinwave waveguides.
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Realization of XNOR and NAND spin-wave logic gates
TL;DR: In this paper, the authors demonstrate the functionality of spin-wave logic XNOR and NAND gates based on a Mach-Zehnder type interferometer which has arms implemented as sections of ferrite film spinwave waveguides.
Journal ArticleDOI
Spin-wave logical gates
TL;DR: In this article, a spin-wave-based logic gate is proposed to use a Mach-Zender-type current-controlled interferometer based on spinwave propagation in a ferromagnetic film to construct logical gates.
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Emission and propagation of 1D and 2D spin waves with nanoscale wavelengths in anisotropic spin textures
Volker Sluka,T. Schneider,R. A. Gallardo,Attila Kákay,Markus Weigand,Tobias Warnatz,Tobias Warnatz,Roland Mattheis,A. Roldán-Molina,P. Landeros,Vasil Tiberkevich,Andrei Slavin,Gisela Schütz,Artur Erbe,Alina M. Deac,Jürgen Lindner,Jörg Raabe,Jürgen Fassbender,Jürgen Fassbender,Sebastian Wintz,Sebastian Wintz +20 more
TL;DR: This work demonstrates spin wave control using natural anisotropic features of magnetic order in an interlayer exchange-coupled ferromagnetic bilayer and shows routes towards the practical implementation of magnonic waveguides in the form of domain walls in future spin wave logic and computational circuits.
Journal ArticleDOI
Reconfigurable Spin-Wave Nonreciprocity Induced by Dipolar Interaction in a Coupled Ferromagnetic Bilayer
R. A. Gallardo,T. Schneider,Avinash Kumar Chaurasiya,A. Oelschlägel,A. Oelschlägel,Sri Sai Phani Kanth Arekapudi,A. Roldán-Molina,René Hübner,Kilian Lenz,Anjan Barman,Jürgen Fassbender,Jürgen Fassbender,Jürgen Lindner,Olav Hellwig,Olav Hellwig,P. Landeros +15 more
TL;DR: In this paper, the authors considered a ferromagnetic bilayer with dipolar coupling as a potential non-reciprocal magnonic device, in which frequency dispersion is reciprocal for parallel and non-rewardable for antiparallel orientation of layer magnetizations.