A. A. Martyshkin scite author profile

A. A. Martyshkin

5Publications

39Citation Statements Received

0Citation Statements Given

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212

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Saratov State University

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Spin-wave intermodal coupling in the interconnection of magnonic units

Садовников

Grachev

Gubanov

et al. 2018

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We report experimental investigation of spin-wave transport along combined magnonic structures which are comprised of the 90°-magnonic bend and adjacent nonidentical magnetic stripes. The latter has the form of a spin-wave coupler. Using space-resolved Brillouin light-scattering spectroscopy and micromagnetic simulations, we study propagation, transformation, and coupling of spin waves in the combined structure. We show that characteristics of spin-wave transport in such structures are defined strongly by the intermodal dipolar spin-wave coupling. The developed structure can operate as a multifunctional magnonic device and can be used to turn the spin wave at 90° performing the functionality of a directional coupler, a power splitter, a multiplexer, or a frequency separator. Our results show that interconnection of magnonic units can be utilized for further development of planar topologies of insulator-based magnonic networks.

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Neuromorphic Calculations Using Lateral Arrays of Magnetic Microstructures with Broken Translational Symmetry

et al. 2018

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Vertical Spin-Wave Transport in Magnonic Waveguides With Broken Translation Symmetry

et al. 2019

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Controlling the Properties of Spin–Wave Transport in a Semiring Magnon Microwavevguide

2019

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Magnonic Interconnections: Spin-Wave Propagation across Two-Dimensional and Three-Dimensional Junctions between Yttrium Iron Garnet Magnonic Stripes

2022

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Spin-wave transport across multidimensional networks of magnonic waveguides represents a crucial and necessary aspect of prospective densely packed three-dimensional spin-wave architectures. Here, we report the results of investigations of spin-wave propagation through magnonic waveguides extending along and bending across two and three dimensions. We consider three designs of in-plane two-dimensional bends, namely with right-angled, diagonal, and curved geometries. Our numerical and experimental results show that such bends facilitate the conversion of spin-wave types, with the output modal number depending on the spin-wave frequency. At the same time, variation of the width of lateral magnonic bends enables the spin-wave wavelength to be modified. When propagating across three-dimensional waveguide bends in the form of out-of-plane junctions, the spin-wave wavelength can similarly be tuned by adjusting the stripe's thickness. Our results show that magnonic waveguides can serve not only as passive conduits but also as active elements in modifying the properties of the transmitted spin wave in three-dimensional magnonic networks.

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A. A. Martyshkin

Spin-wave intermodal coupling in the interconnection of magnonic units

Neuromorphic Calculations Using Lateral Arrays of Magnetic Microstructures with Broken Translational Symmetry

Vertical Spin-Wave Transport in Magnonic Waveguides With Broken Translation Symmetry

Controlling the Properties of Spin–Wave Transport in a Semiring Magnon Microwavevguide

Magnonic Interconnections: Spin-Wave Propagation across Two-Dimensional and Three-Dimensional Junctions between Yttrium Iron Garnet Magnonic Stripes

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