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Identification and time-resolved study of YIG spin wave modes in a MW cavity in strong coupling regime

Recently, the hybridization of microwave-frequency cavity modes with collective spin excitations attracted large interest for the implementation of quantum computation protocols, which exploit the transfer of information among these two physical systems. Here, we investigate the interaction among the magnetization precession modes of a small YIG sphere and the MW electromagnetic modes, resonating in a tridimensional aluminum cavity. In the strong coupling regime, anti-crossing features were observed in correspondence of various magnetostatic modes, which were excited in a magnetically saturated sample. Time-resolved studies show evidence of Rabi oscillations, demonstrating coherent exchange of energy among photons and magnons modes. To facilitate the analysis of the standing spin-wave patterns, we propose here a new procedure, based on the introduction of a novel functional variable. The resulting easier identification of magnetostatic modes can be exploited to investigate, control and compare many-levels hybrid systems in cavity- and opto-magnonics research.

preprint2019arXivOpen access
Angelo LeoAnna Grazia MonteduroSilvia RizzatoLuigi MartinaGiuseppe Maruccio
cond-mat.mes-hallquant-ph
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Angelo LeoAnna Grazia MonteduroSilvia RizzatoLuigi MartinaGiuseppe Maruccio

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