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Paper detail

Deeply nonlinear excitation of self-normalised exchange spin waves

Spin waves are ideal candidates for wave-based computing, but the construction of magnetic circuits is blocked by a lack of an efficient mechanism to excite long-running exchange spin waves with normalised amplitudes. Here, we solve the challenge by exploiting the deeply nonlinear phenomena of forward-volume spin waves in 200 nm wide nanoscale waveguides and validate our concept with microfocused Brillouin light scattering spectroscopy. An unprecedented nonlinear frequency shift of >2 GHz is achieved, corresponding to a magnetisation precession angle of 55° and enabling the excitation of exchange spin waves with a wavelength of down to ten nanometres with an efficiency of >80%. The amplitude of the excited spin waves is constant and independent of the input microwave power due to the self-locking nonlinear shift, enabling robust adjustment of the spin wave amplitudes in future on-chip magnonic integrated circuits.

preprint2022arXivOpen access
Qi WangRoman VerbaBjörn HeinzMichael SchneiderOndřej WojewodaKristýna DavídkováKhrystyna LevchenkoCarsten DubsNorbert J. MauserMichal UrbánekPhilipp PirroAndrii V. Chumak
physics.app-ph
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Qi WangRoman VerbaBjörn HeinzMichael SchneiderOndřej WojewodaKristýna DavídkováKhrystyna LevchenkoCarsten DubsNorbert J. MauserMichal UrbánekPhilipp PirroAndrii V. Chumak

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