Piezo-optomechanical coupling of a 3D microwave resonator to a bulk acoustic wave crystalline resonator

We report the observation of coupling between a 3D microwave cavity mode and a bulk mechanical resonator mediated by piezoelectric and radiation pressure effects. The system is composed of a quartz bulk acoustic wave resonator placed inside a microwave re-entrant cavity, which is designed to act as...

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Veröffentlicht in:	Appl.Phys.Lett 2019-11, Vol.115 (21)
Hauptverfasser:	Carvalho, N. C., Bourhill, J., Goryachev, M., Galliou, S., Tobar, M. E.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic waves Acoustics Actuation Applied physics Cavity resonators Computer simulation Coupling Finite element method Physics Piezoelectricity Pressure effects Radiation pressure
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container_title	Appl.Phys.Lett
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creator	Carvalho, N. C. Bourhill, J. Goryachev, M. Galliou, S. Tobar, M. E.
description	We report the observation of coupling between a 3D microwave cavity mode and a bulk mechanical resonator mediated by piezoelectric and radiation pressure effects. The system is composed of a quartz bulk acoustic wave resonator placed inside a microwave re-entrant cavity, which is designed to act as both the electrodes for piezoelectric actuation and a 3D resonator. The cavity electromagnetic mode is modulated by a 5 MHz bulk acoustic wave shear mode, which is modeled and experimentally verified using the input-output formalism. Through finite element method simulations, we calculate the various contributions to the electromechanical coupling and discuss the potential of the system to reach high cooperativities as well as suitable applications.
doi_str_mv	10.1063/1.5127997
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subjects	Acoustic waves Acoustics Actuation Applied physics Cavity resonators Computer simulation Coupling Finite element method Physics Piezoelectricity Pressure effects Radiation pressure
title	Piezo-optomechanical coupling of a 3D microwave resonator to a bulk acoustic wave crystalline resonator
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