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Thermal radiation dominated heat transfer in nanomechanical silicon nitride drum resonators

Markus Piller, Pedram Sadeghi, Robert G. West, Niklas Luhmann, Paolo Martini, Ole Hansen, Silvan Schmid

2020Applied Physics Letters24 citationsDOIOpen Access PDF

Abstract

Nanomechanical silicon nitride (SiN) drum resonators are currently employed in various fields of applications that arise from their unprecedented frequency response to physical quantities. In the present study, we investigate the thermal transport in nanomechanical SiN drum resonators by analytical modeling, computational simulations, and experiments for a better understanding of the underlying heat transfer mechanism causing the thermal frequency response. Our analysis shows that radiative heat loss is a non-negligible heat transfer mechanism in nanomechanical SiN resonators, limiting their thermal responsivity and response time. This finding is important for optimal resonator designs for thermal sensing applications as well as cavity optomechanics.

Topics & Concepts

Materials scienceResonatorHeat transferThermal radiationOptoelectronicsThermalSilicon nitrideThermal conductivitySiliconThermal transferRadiative transferNitrideHeat sinkThermal resistanceThermal contactResponsivityComposite materialEnhanced heat transferWide-bandgap semiconductorDissipationWaferRapid thermal processingMechanical and Optical ResonatorsThermoelastic and Magnetoelastic PhenomenaAdvanced MEMS and NEMS Technologies
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