It is shown that phase errors in a microwave spin-wave transmission line can be corrected by subjecting the signal-carrying propagating spin wave to the action of a localized nonadiabatic parametric pumping, having the localization length smaller than the spin-wave wavelength. In such a transmission line the phase-transmission characteristic has a "steplike" shape containing flat "stabilization plateaus" separated by intervals of size π. Within the "plateau" regions the phase of the output spin wave is practically constant in a rather wide range of phases of the input spin wave. This effect can be used in magnonic logic devices for the correction of phase errors of up to ±0.25π. It is also proved that this phase-stabilization effect is stable against the variations of the spin-wave amplitude and is present across the amplitude range of the stable spin-wave propagation.
Correction of Phase Errors in a Spin-Wave Transmission Line by Nonadiabatic Parametric Pumping / Verba, Roman; Carpentieri, Mario; Chen, Yu-Jin; Krivorotov, Ilya N.; Finocchio, Giovanni; Tiberkevich, Vasil; Slavin, Andrei. - In: PHYSICAL REVIEW APPLIED. - ISSN 2331-7019. - STAMPA. - 11:5(2019). [10.1103/PhysRevApplied.11.054040]
Correction of Phase Errors in a Spin-Wave Transmission Line by Nonadiabatic Parametric Pumping
Mario Carpentieri;
2019-01-01
Abstract
It is shown that phase errors in a microwave spin-wave transmission line can be corrected by subjecting the signal-carrying propagating spin wave to the action of a localized nonadiabatic parametric pumping, having the localization length smaller than the spin-wave wavelength. In such a transmission line the phase-transmission characteristic has a "steplike" shape containing flat "stabilization plateaus" separated by intervals of size π. Within the "plateau" regions the phase of the output spin wave is practically constant in a rather wide range of phases of the input spin wave. This effect can be used in magnonic logic devices for the correction of phase errors of up to ±0.25π. It is also proved that this phase-stabilization effect is stable against the variations of the spin-wave amplitude and is present across the amplitude range of the stable spin-wave propagation.| File | Dimensione | Formato | |
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