Nonreciprocal spin-wave dispersion in magnetic bilayers

Shranjeno v:

Bibliografske podrobnosti
izdano v:	arXiv.org (Dec 12, 2024), p. n/a
Glavni avtor:	Heins, C
Drugi avtorji:	Iurchuk, V, Gladii, O, Körber, L, Kákay, A, Fassbender, J, Schultheiss, K, Schultheiss, H
Izdano:	Cornell University Library, arXiv.org
Teme:	Ferromagnetic materials Finite element method Magnetic saturation Wave propagation Data processing Mathematical analysis Parameters Thickness Numerical analysis Heterostructures Wave dispersion
Online dostop:	Citation/Abstract Full text outside of ProQuest
Oznake:	Označite Brez oznak, prvi označite!

Opis
Resumen:	Nonreciprocal spin-wave propagation in bilayer ferromagnetic systems has attracted significant attention due to its potential to precisely quantify material parameters as well as for applications in magnonic logic and information processing. In this study we investigate the nonreciprocity of spin-wave dispersions in heterostructures consisting of two distinct ferromagnetic materials, focusing on the influence of saturation magnetization and thickness of the magnetic layers. We exploit Brillouin light scattering to confirm numerical calculations which are conducted with the finite element software TETRAX. An extensive numerical analysis reveals that the nonreciprocal behavior is strongly influenced by the changing material parameters, with asymmetry in the spin-wave propagation direction reaching several GHz under optimized conditions. Our findings demonstrate that tailoring the bilayer composition enables precise control over nonreciprocity, providing a pathway for engineering efficient unidirectional spin-wave devices. These results offer a deeper understanding of hybrid ferromagnetic systems and open avenues for designing advanced magnonic circuits.
ISSN:	2331-8422
Fuente:	Engineering Database