Experimental realisation of a universal inverse-design magnonic device

Noura Zenbaa, Claas Abert, Fabian Majcen, Michael Kerber, Rostyslav O. Serha, Sebastian Knauer, Qi Wang, Thomas Schrefl, Dieter Suess, Andrii V. Chumak (Corresponding author)

Publications: Working paperPreprint

Abstract

In the field of magnonics, which uses magnons, the quanta of spin waves, for energy-efficient data processing, significant progress has been made leveraging the capabilities of the inverse design concept. This approach involves defining a desired functionality and employing a feedback-loop algorithm to optimise the device design. In this study, we present the first experimental demonstration of a reconfigurable, lithography-free, and simulation-free inverse-design device capable of implementing various RF components. The device features a square array of independent direct current loops that generate a complex reconfigurable magnetic medium atop a Yttrium-Iron-Garnet (YIG) rectangular film for data processing in the gigahertz range. Showcasing its versatility, the device addresses inverse problems using two algorithms to create RF notch filters and demultiplexers. Additionally, the device holds promise for binary, reservoir, and neuromorphic computing applications.
Original languageEnglish
PublisherarXiv
Publication statusSubmitted - 26 Mar 2024

Austrian Fields of Science 2012

  • 103017 Magnetism

Keywords

  • physics.app-ph
  • cond-mat.mtrl-sci

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