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Dynamically Driven Emergence in a Nanomagnetic System

Richard W S Dawidek, Thomas J. Hayward, Ian T. Vidamour, T. J. Broomhall, G. Venkat, Mohanad Al Mamoori, Aidan Mullen, Stephan J. Kyle, P. W. Fry, Nina‐Juliane Steinke, Joshaniel F. K. Cooper, Francesco Maccherozzi, S. S. Dhesi, Lucía Aballe, Michael Foerster, Jordi Prat, Eleni Vasilaki, Matthew O. A. Ellis, D. A. Allwood

2021Advanced Functional Materials48 citationsDOIOpen Access PDF

Abstract

Abstract Emergent behaviors occur when simple interactions between a system's constituent elements produce properties that the individual elements do not exhibit in isolation. This article reports tunable emergent behaviors observed in domain wall (DW) populations of arrays of interconnected magnetic ring‐shaped nanowires under an applied rotating magnetic field. DWs interact stochastically at ring junctions to create mechanisms of DW population loss and gain. These combine to give a dynamic, field‐dependent equilibrium DW population that is a robust and emergent property of the array, despite highly varied local magnetic configurations. The magnetic ring arrays’ properties (e.g., non‐linear behavior, “fading memory” to changes in field, fabrication repeatability, and scalability) suggest they are an interesting candidate system for realizing reservoir computing (RC), a form of neuromorphic computing, in hardware. By way of example, simulations of ring arrays performing RC approaches 100% success in classifying spoken digits for single speakers.

Topics & Concepts

Neuromorphic engineeringScalabilityMaterials scienceRing (chemistry)PopulationMagnetic fieldNanotechnologyBiological systemField (mathematics)FabricationComputer sciencePhysicsArtificial intelligenceArtificial neural networkMathematicsBiologyDemographyOrganic chemistryDatabasePure mathematicsChemistryAlternative medicineSociologyMedicineQuantum mechanicsPathologyNeural Networks and Reservoir ComputingAdvanced Memory and Neural ComputingMagnetic properties of thin films
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