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Abstract

Using conventional coplanar waveguides (CPWs), we excited spin waves with a wavelength λ down to 310 nm in a 200 nm thin yttrium iron garnet film grown by liquid phase epitaxy. Spin-wave transmission was detected between CPWs that we separated by up to 2 mm. For magnetostatic surface spin waves, we found a large nonreciprocity of 0.9 and a high group velocity vg of up to 5.4 km/s. The extracted decay length ld amounted to 0.86 mm. Small λ, high vg, and large ld are key figures of merit when aiming at non-charged based signal transmission and logic devices with spin waves.

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