Litcius/Paper detail

Symmetry of the coupling between surface acoustic waves and spin waves in synthetic antiferromagnets

Rafael Lopes Seeger, Léa La Spina, Vincent Laude, Florian Millo, Ausrine Bartasyte, Samuel Margueron, A. Solignac, G. de Loubens, L. Thevenard, C. Gourdon, C. Chappert, T. Devolder

2024Physical review. B./Physical review. B10 citationsDOIOpen Access PDF

Abstract

Synthetic antiferromagnets host spin waves that are highly tunable. It is of practical interest to analyze the symmetry of their coupling to surface acoustic waves with the design of hybrid devices in view. For this we calculate the layer-resolved susceptibility tensor of a synthetic antiferromagnet, the effective magnetoelastic and magnetorotation fields associated with a traveling elastic wave, and the power irreversibly transferred by the elastic wave to the magnetic layers. We consider Rayleigh-type surface acoustic waves (a) that travel in an elastically isotropic, nonpiezoelectric substrate, or (b) that propagate along the X direction at the surface of a Z-cut ${\mathrm{LiNbO}}_{3}$ substrate, or (c) that are guided in a thin Z-cut ${\mathrm{LiNbO}}_{3}$ film grown on a sapphire substrate. In particular, we show that the complementary angular dependencies of the acoustic and optical spin wave modes in synthetic antiferromagnets make it possible to excite spin waves for any relative orientation of magnetization and acoustic wave vector. In addition, we discuss the symmetries of the driving fields and of the energy transferred to the magnetic degree of freedom. We give evidence of new interaction channels coupling the magnetization eigenmodes when elastic anisotropy and piezoelectricity of the substrate are considered.

Topics & Concepts

Condensed matter physicsRayleigh waveSpin waveIsotropyPhysicsLove waveCoupling (piping)Surface acoustic waveAnisotropySurface waveAcoustic waveMagnetizationPiezoelectricitySymmetry (geometry)Magnetic anisotropyMechanical waveMaterials scienceWave propagationOpticsMagnetic fieldLongitudinal waveAcousticsFerromagnetismGeometryQuantum mechanicsMathematicsMetallurgyMagnetic properties of thin filmsAcoustic Wave Resonator TechnologiesTheoretical and Computational Physics