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On-chip phonon-magnon reservoir for neuromorphic computing

Author

Listed:
  • Dmytro D. Yaremkevich

    (Experimentelle Physik 2, Technische Universität Dortmund)

  • Alexey V. Scherbakov

    (Experimentelle Physik 2, Technische Universität Dortmund)

  • Luke Clerk

    (Loughborough University
    Machine Learning Development, SS&C Technologies)

  • Serhii M. Kukhtaruk

    (V. E. Lashkaryov Institute of Semiconductor Physics)

  • Achim Nadzeyka

    (Raith GmbH)

  • Richard Campion

    (University of Nottingham)

  • Andrew W. Rushforth

    (University of Nottingham)

  • Sergey Savel’ev

    (Loughborough University)

  • Alexander G. Balanov

    (Loughborough University)

  • Manfred Bayer

    (Experimentelle Physik 2, Technische Universität Dortmund)

Abstract

Reservoir computing is a concept involving mapping signals onto a high-dimensional phase space of a dynamical system called “reservoir” for subsequent recognition by an artificial neural network. We implement this concept in a nanodevice consisting of a sandwich of a semiconductor phonon waveguide and a patterned ferromagnetic layer. A pulsed write-laser encodes input signals into propagating phonon wavepackets, interacting with ferromagnetic magnons. The second laser reads the output signal reflecting a phase-sensitive mix of phonon and magnon modes, whose content is highly sensitive to the write- and read-laser positions. The reservoir efficiently separates the visual shapes drawn by the write-laser beam on the nanodevice surface in an area with a size comparable to a single pixel of a modern digital camera. Our finding suggests the phonon-magnon interaction as a promising hardware basis for realizing on-chip reservoir computing in future neuromorphic architectures.

Suggested Citation

  • Dmytro D. Yaremkevich & Alexey V. Scherbakov & Luke Clerk & Serhii M. Kukhtaruk & Achim Nadzeyka & Richard Campion & Andrew W. Rushforth & Sergey Savel’ev & Alexander G. Balanov & Manfred Bayer, 2023. "On-chip phonon-magnon reservoir for neuromorphic computing," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43891-y
    DOI: 10.1038/s41467-023-43891-y
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    References listed on IDEAS

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    1. Doeon Lee & Minseong Park & Yongmin Baek & Byungjoon Bae & Junseok Heo & Kyusang Lee, 2022. "In-sensor image memorization and encoding via optical neurons for bio-stimulus domain reduction toward visual cognitive processing," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
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