Abstract

Numerical results of spin-wave resonance excitations and spin-wave propagation in the meander-type YIG waveguide are presented. By the variation of the in-plane magnetization angle, we show that ferromagnetic resonance spectra essentially depend on the total height of the meander in the case of different magnetic field orientation with respect to meander segments. We demonstrate that the gradients of inhomogeneous static magnetic fields can lead to the effective generation of short-wavelength dipole-exchange waves having non-resonant spatial distribution. We show that the collective and localized spin-wave modes can be simultaneously excited in 3D magnonic crystals. We believe that obtained results will provide the basis for the development of 3D-elements for reconfigurable magnonic and spintronic devices with extended frequency tunability.

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