Nonlinear Magnons for Reservoir Computing in Reciprocal Space

HORIZON.2.4HORIZON-RIAID: 101070290
EC Contribution
€34,210
Consortium Size
8 orgs
Summary

NIMFEIA aims to provide a hardware solution for brain-inspired computing using magnetic materials on the nanoscale combined with advanced spintronics technologies. It is based on the disruptive idea of computation in reciprocal space where nonlinear spin-wave interactions mediated by nontrivial spin textures, such as magnetic vortices, can be efficiently harnessed for reservoir computing tasks like pattern recognition and time series prediction with minimal pre-processing of input data. We will demonstrate the ground-breaking nature of our proposal by meeting four core objectives: (1) Demonstrating the core principles of reservoir computing using GHz-regime spin waves by quantifying and designing nonlinear scattering processes in reciprocal space (TRL 3); (2) Developing an experimental and scalable proof-of-concept device using industrially compatible processes (TRL 4); (3) Demonstrating the utility of the magnon reservoir on a selected pervasive real-world use case, namely gesture and feature recognition from radar data in autonomous driving scenarios (TRL 4-5); (3) Scaling the magnon reservoir to the THz regime by moving towards the edge of the Brillouin zone and through the use of antiferromagnetic materials. While Objectives 1-3 will focus on the validation of the novel technology in laboratory and industrially relevant environment, Objective 4 will provide the groundwork for pushing this technology towards THz frequency operation and 6G compatibility. NIMFEIA will lay the foundations for a new paradigm in nanomagnetic and spintronic technologies that go beyond traditional applications in binary storage and Boolean logic, radiofrequency signal processing, as well as field sensing. It will address major current technological challenges by proposing an energy-efficient computing scheme for edge computing using artificial intelligence.

Consortium (8)

Project Results (46)

Source: CORDIS, the EU research results database.

Publications (31)
"Temperature-dependent study of the spin dynamics of coupled <mml:math xmlns:mml=""http://www.w3.org/1998/Math/MathML""><mml:mrow><mml:msub><mml:mi mathvariant=""normal"">Y</mml:mi><mml:mn>3</mml:mn></mml"
Physical Review B· 2025DOI
Felix Fuhrmann, Sven Becker, Akashdeep Akashdeep, Gerhard Jakob, Qianqian Lan, Nan Wang, Rafal E. Dunin-Borkowski, Romain Lebrun, Mathias Weiler, Mathias Kläui
Benchmarking a magnon-scattering reservoir with modal and temporal multiplexing
Physical Review Applied· 2025DOI
Christopher Heins; Joo-Von Kim; Lukas Körber; Jürgen Fassbender; Helmut Schultheiss; Katrin Schultheiss
Effects of Chiral Polypeptides on Skyrmion Stability and Dynamics
Nano Letters· 2025DOI
Yael Kapon, Fabian Kammerbauer, Theo Balland, Shira Yochelis, Mathias Kläui, Yossi Paltiel
Harnessing orbital Hall effect in spin-orbit torque MRAM
Nature Communications· 2025DOI
Rahul Gupta, Chloé Bouard, Fabian Kammerbauer, J. Omar Ledesma-Martin, Arnab Bose, Iryna Kononenko, Sylvain Martin, Perrine Usé, Gerhard Jakob, Marc Drouard, Mathias Kläui
Nature Nanotechnology
Nature Nanotechnology· 2025DOI
Raphael Gruber; Jan Rothörl; Simon M. Fröhlich; Maarten A. Brems; Fabian Kammerbauer; Maria-Andromachi Syskaki; Elizabeth M. Jefremovas; Sachin Krishnia; Asle Sudbø; Peter Virnau; Mathias Kläui
Noise-based local learning using stochastic magnetic tunnel junctions
Physical Review Applied· 2025DOI
Kees Koenders; Leo Schnitzpan; Fabian Kammerbauer; Sinan Shu; Gerhard Jakob; Mathias Kläui; Johan H. Mentink; Nasir Ahmad; Marcel van Gerven
Observation of a non-reciprocal skyrmion Hall effect of hybrid chiral skyrmion tubes in synthetic antiferromagnetic multilayers
Nature Communications· 2025DOI
Takaaki Dohi, Mona Bhukta, Fabian Kammerbauer, Venkata Krishna Bharadwaj, Ricardo Zarzuela, Aakanksha Sud, Maria-Andromachi Syskaki, Duc Minh Tran, Thibaud Denneulin, Sebastian Wintz, Markus Weigand,
Pushing the boundary of quantum advantage in hard combinatorial optimization with probabilistic computers
Nature Communications· 2025DOI
Shuvro Chowdhury, Navid Anjum Aadit, Andrea Grimaldi, Eleonora Raimondo, Atharva Raut, P. Aaron Lott, Johan H. Mentink, Marek M. Rams, Federico Ricci-Tersenghi, Massimo Chiappini, Luke S. Theogarajan,
Realizing Quantitative Quasiparticle Modeling of Skyrmion Dynamics in Arbitrary Potentials
Physical Review Letters· 2025DOI
Maarten A. Brems; Tobias Sparmann; Simon M. Fröhlich; Leonie-C. Dany; Jan Rothörl; Fabian Kammerbauer; Elizabeth M. Jefremovas; Oded Farago; Mathias Kläui; Peter Virnau
The role of magnetic dipolar interactions in skyrmion lattices
Newton· 2025DOI
Jefremovas, Elizabeth M.; Leutner, Kilian; Fischer, Miriam G.; Marqués-Marchán, Jorge; Winkler, Thomas B.; Asenjo, Agustina; Sinova, Jairo; Frömter, Robert; Kläui, Mathias
Coarse-graining collective skyrmion dynamics in confined geometries
Applied Physics Letters· 2024DOI
T. B. Winkler, J. Rothörl, M. A. Brems, G. Beneke, H. Fangohr, and M. Kläui
Coherent THz spin dynamics in antiferromagnets beyond the approximation of the Néel vector
APL Materials· 2024DOI
F. Formisano, T. T. Gareev, D. I. Khusyainov, A. E. Fedianin, D. Afanasiev, R. V. Pisarev, A. M. Kalashnikova, J. H. Mentink, R. M. Dubrovin, P. P. Syrnikov, A. V. Kimel
Electronic transparency of internal interfaces in metallic nanostructures comprising light, heavy and ferromagnetic metals measured by terahertz spectroscopy
Nanophotonics· 2024DOI
Beermann, Nicolas; Fabretti, Savio; Hafez, Hassan A.; Syskaki, Maria-Andromachi; Kononenko, Iryna; Jakob, Gerhard; Kläeui, Mathias; Turchinovich, Dmitry
Gesture recognition with Brownian reservoir computing using geometrically confined skyrmion dynamics
Nature Communications· 2024DOI
Grischa Beneke, Thomas Brian Winkler, Klaus Raab, Maarten A. Brems, Fabian Kammerbauer, Pascal Gerhards, Klaus Knobloch, Sachin Krishnia, Johan H. Mentink, Mathias Kläui
Homochiral antiferromagnetic merons, antimerons and bimerons realized in synthetic antiferromagnets
Nature Communications· 2024DOI
M. Bhukta, T. Dohi, V. K. Bharadwaj, R. Zarzuela, M.-A. Syskaki, M. Foerster, M. Angel Niño, J. Sinova, R. Frömter, and M. Kläui
Machine-learning-based detection of spin structures
Physical Review Applied· 2024DOI
I. Labrie-Boulay, T. Brian Winkler, D. Franzen, A. Romanova, H. Fangohr, M. Kläui
Magneto-ionic modulation of the interlayer exchange interaction in synthetic antiferromagnets
Applied Physics Letters· 2024DOI
Maria-Andromachi Syskaki; Takaaki Dohi; Beatrice Bednarz; Sergei Olegovich Filnov; Sergey Alexeyevich Kasatikov; Mona Bhukta; Alevtina Smekhova; Rohit Pachat; Johannes Wilhelmus van der Jagt; Shimpei
Mechanically Stable PMMA‐Based Large‐Area Nano‐Channels with Sub‐10 nm Depth
Advanced Materials Technologies· 2024DOI
Min Liu; Tobias Reimer; Yongkang Wang; Mathias Kläui; Yaowen Xing; Xiahui Gui; Yijun Cao; Rüdiger Berger; Hai Wang; Mischa Bonn
Spontaneous and impulsive stimulated Raman scattering from two-magnon modes in a cubic antiferromagnet
Physical Review B· 2024DOI
Fedianin, A.; Fedianin, A.; Kalashnikova, Alexandra M.; Mentink, J.H.
The 2024 magnonics roadmap
Journal of Physics: Condensed Matter· 2024DOI
Benedetta Flebus, Dirk Grundler, Bivas Rana, YoshiChika Otani, Igor Barsukov, Anjan Barman, Gianluca Gubbiotti, Pedro Landeros, Johan Akerman, Ursula Ebels, Philipp Pirro, Vladislav E Demidov, Katrin
Time-dependent Schwinger boson mean-field theory of supermagnonic propagation in 2D antiferromagnets
SciPost Physics· 2024DOI
M. D. Bouman, Johan H. Mentink
Constructing coarse-grained skyrmion potentials from experimental data with Iterative Boltzmann Inversion
Communications Physics· 2023DOI
Y. Ge, J. Rothörl, M. A. Brems, N. Kerber; R. Gruber, T. Dohi, M. Kläui, P. Virnau
Electrical coupling of superparamagnetic tunnel junctions mediated by spin-transfer-torques
Applied Physics Letters· 2023DOI
L. Schnitzspan, M. Kläui, G. Jakob
Modification of three-magnon splitting in a flexed magnetic vortex
Applied Physics Letters· 2023DOI
L. Körber, C. Heins, I. Soldatov, R. Schäfer, A. Kákay, H. Schultheiss, K. Schultheiss
Nanosecond True-Random-Number Generation with Superparamagnetic Tunnel Junctions: Identification of Joule Heating and Spin-Transfer-Torque Effects
Physical Review Applied· 2023DOI
L. Schnitzspan, M. Kläui, Gerhard Jakob
Opportunities and challenges for spintronics
Europhysics News· 2023DOI
C. Adelmann, A. Jenkins, P. Pirro, K. Schultheiss, S. van Dijken, V. Kruglyak, P. Bortolotti
Pattern recognition in reciprocal space with a magnon-scattering reservoir
Nature Communications· 2023DOI
L. Körber, C. Heins, T. Hula, J.-V. Kim, S. Thlang, H. Schultheiss, J. Fassbender, K. Schultheiss
Perspective on unconventional computing using magnetic skyrmions
Applied Physics Letters· 2023DOI
O. Lee, R. Msiska, M. A. Brems, M. Kläui, H. Kurebayashi, K. Everschor-Sitte
Selection rules for ultrafast laser excitation and detection of spin correlation dynamics in a cubic antiferromagnet
Physical Review B· 2023DOI
A. E. Fedianin, A. M. Kalashnikova, J. H. Mentink
Tailoring Magnetic Properties and Suppressing Anisotropy in Permalloy Films by Deposition in a Rotating Magnetic Field
Physical Review Applied· 2023DOI
Lozhkina, Olga; Kammerbauer, Fabian; Syskaki, Maria-Andromachi; Puthirath Balan, Aravind; Krautscheid, Pascal; Khanjani, Mehran Vafaee; Kubik, Jan; O’Brien, Stephen; Reeve, Robert M.; Jakob, Gerhard
Brownian reservoir computing realized using geometrically confined skyrmion dynamics
Nature Communications· 2022DOI
K. Raab, M. A. Brems, G. Beneke, T. Dohi, J. Rothörl, F. Kammerbauer, J. H. Mentink, M. Kläui
Deliverables (14)
Other Results (1)
Periodic Reporting for period 1 - NIMFEIA (Nonlinear Magnons for Reservoir Computing in Reciprocal Space)