Litcius/Paper detail

Shaping the spin wave spectra of planar 1D magnonic crystals by the geometrical constraints

Justyna Rychły-Gruszecka, Jakob Walowski, Christian Denker, Tobias Tubandt, Markus Münzenberg, Jarosław W. Kłos

2022Scientific Reports11 citationsDOIOpen Access PDF

Abstract

We present experimental and numerical studies demonstrating the influence of geometrical parameters on the fundamental spin-wave mode in planar 1D magnonic crystals. The investigated magnonic crystals consist of flat stripes separated by air gaps. The adjustment of geometrical parameters allows tailoring of the spin-wave frequencies. The width of stripes and the width of gaps between them affect spin-wave frequencies in two ways. First, directly by geometrical constraints confining the spin waves inside the stripes. Second, indirectly by spin-wave pinning, freeing the spin waves to a different extent on the edges of stripes. Experimentally, the fundamental spin-wave mode frequencies are measured using an all-optical pump-probe time-resolved magneto-optical Kerr-effect setup. Our studies address the problem of spin-wave confinement and spin-wave dipolar pinning in an array of coupled stripes. We show that the frequency of fundamental mode can be tuned to a large extent by adjusting the width of the stripes and the width of gaps between them.

Topics & Concepts

Spin waveCondensed matter physicsPlanarSpin (aerodynamics)DipolePhysicsOpticsFerromagnetismQuantum mechanicsComputer graphics (images)ThermodynamicsComputer scienceMagnetic properties of thin filmsMagneto-Optical Properties and ApplicationsQuantum and electron transport phenomena