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Spin-wave frequency combs

Authors :
(0000-0002-1811-8862) Hula, T.
(0000-0002-3382-5442) Schultheiß, K.
(0000-0002-1671-437X) Trindade Goncalves, F. J.
(0000-0001-8332-9669) Körber, L.
(0000-0001-5970-0384) Bejarano, M.
Copus, M.
(0000-0002-6536-8653) Flacke, L.
Liensberger, L.
Buzdakov, A.
(0000-0002-3195-219X) Kakay, A.
(0000-0003-0537-9251) Weiler, M.
Camley, R.
(0000-0003-3893-9630) Faßbender, J.
(0000-0002-6727-5098) Schultheiß, H.
(0000-0002-1811-8862) Hula, T.
(0000-0002-3382-5442) Schultheiß, K.
(0000-0002-1671-437X) Trindade Goncalves, F. J.
(0000-0001-8332-9669) Körber, L.
(0000-0001-5970-0384) Bejarano, M.
Copus, M.
(0000-0002-6536-8653) Flacke, L.
Liensberger, L.
Buzdakov, A.
(0000-0002-3195-219X) Kakay, A.
(0000-0003-0537-9251) Weiler, M.
Camley, R.
(0000-0003-3893-9630) Faßbender, J.
(0000-0002-6727-5098) Schultheiß, H.
Source :
Applied Physics Letters 121(2022)11, 112404
Publication Year :
2022

Abstract

We experimentally demonstrate the generation of spin-wave frequency combs based on the non- linear interaction of propagating spin waves in a microstructured waveguide. By means of time- and space-resolved Brillouin light scattering spectroscopy, we show that the simultaneous excita- tion of spin waves with different frequencies leads to a cascade of four-magnon scattering events which ultimately results in well-defined frequency combs. Their spectral weight can be tuned by the choice of amplitude and frequency of the input signals. Furthermore, we introduce a model for stimulated four-magnon scattering which describes the formation of spin-wave frequency combs in the frequency and time domain. Frequency

Details

Database :
OAIster
Journal :
Applied Physics Letters 121(2022)11, 112404
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1415626601
Document Type :
Electronic Resource

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