Litcius/Paper detail

Fast long-wavelength exchange spin waves in partially compensated Ga:YIG

Tobias Böttcher, Moritz Ruhwedel, Khrystyna O. Levchenko, Qi Wang, Hryhorii Chumak, M. A. Popov, I. V. Zavislyak, Carsten Dubs, A. B. Surzhenko, B. Hillebrands, Andrii V. Chumak, Philipp Pirro

2022Applied Physics Letters40 citationsDOIOpen Access PDF

Abstract

Spin waves in yttrium iron garnet (YIG) nano-structures attract increasing attention from the perspective of novel magnon-based data processing applications. For short wavelengths needed in small-scale devices, the group velocity is directly proportional to the spin-wave exchange stiffness constant λex. Using wave vector resolved Brillouin light scattering spectroscopy, we directly measure λex in Ga-substituted YIG thin films and show that it is about three times larger than for pure YIG. Consequently, the spin-wave group velocity overcomes the one in pure YIG for wavenumbers k > 4 rad/μm, and the ratio between the velocities reaches a constant value of around 3.4 for all k > 20 rad/μm. As revealed by vibrating-sample magnetometry and ferromagnetic resonance spectroscopy, Ga:YIG films with thicknesses down to 59 nm have a low Gilbert damping (α<10−3), a decreased saturation magnetization μ0MS≈20 mT, and a pronounced out-of-plane uniaxial anisotropy of about μ0Hu1≈95 mT, which leads to an out-of-plane easy axis. Thus, Ga:YIG opens access to fast and isotropic spin-wave transport for all wavelengths in nano-scale systems independently of dipolar effects.

Topics & Concepts

Yttrium iron garnetSpin waveCondensed matter physicsFerromagnetic resonanceBrillouin SpectroscopyWavelengthAnisotropyMagnetizationGroup velocityMaterials sciencePhysicsMagnonFerromagnetismOpticsBrillouin scatteringMagnetic fieldLaserQuantum mechanicsMagnetic properties of thin filmsMagneto-Optical Properties and ApplicationsMagnetic Properties and Applications
Fast long-wavelength exchange spin waves in partially compensated Ga:YIG | Litcius