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Giant Surface Acoustic Wave Nonreciprocity with Low Magnetoacoustic Insertion Loss in CoFeB/Ru/CoFeB Synthetic Antiferromagnets

Matthias Küß, Stephan Glamsch, Yannik Kunz, Andreas Hörner, Mathias Weiler, M. Albrecht

2023ACS Applied Electronic Materials29 citationsDOI

Abstract

In this study, we optimize the nonreciprocal transmission of surface acoustic waves (SAWs) in a piezoelectric/magnetic heterostructure loaded with a CoFeB( d A )/Ru(0.55 nm)/CoFeB( d B ) synthetic antiferromagnet (SAF). The SAF is composed of two ferromagnetic layers separated by a thin nonmagnetic Ru spacer layer, providing strong antiferromagnetic interlayer exchange coupling. The optical spin wave (SW) mode shows a large nonreciprocal dispersion relation in conjunction with a narrow line width. Therefore, for oppositely propagating SAWs, the SAW-SW resonances can become fully separated. For the optimized CoFeB(16 nm)/Ru(0.55 nm)/CoFeB(5 nm) SAF, we demonstrate both, a giant nonreciprocal SAW transmission of Δ S ± / l f > 250 dB/mm and a very low magnetoacoustic insertion loss of IL Δ / l f < 1 dB/mm per length l f of the SAF in the acoustic path at frequencies above 5 GHz. These results yield the potential for the realization of novel microwave devices with nonreciprocal signal transmission, such as acoustic isolators. In addition, the experimental results are in excellent agreement with a phenomenological model that considers the dipolar fields of the SWs and takes the bilinear and biquadratic interlayer exchange coupling into account.

Topics & Concepts

Materials scienceCondensed matter physicsSurface acoustic waveFerromagnetismAntiferromagnetismMicrowaveHeterojunctionInsertion lossAcoustic waveMagnetostrictionCoupling (piping)OptoelectronicsOpticsPhysicsMagnetic fieldComposite materialQuantum mechanicsMagnetic properties of thin filmsAcoustic Wave Resonator TechnologiesZnO doping and properties