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Tuning nonlinear damping in graphene nanoresonators by parametric-direct internal resonance.


ABSTRACT: Mechanical sources of nonlinear damping play a central role in modern physics, from solid-state physics to thermodynamics. The microscopic theory of mechanical dissipation suggests that nonlinear damping of a resonant mode can be strongly enhanced when it is coupled to a vibration mode that is close to twice its resonance frequency. To date, no experimental evidence of this enhancement has been realized. In this letter, we experimentally show that nanoresonators driven into parametric-direct internal resonance provide supporting evidence for the microscopic theory of nonlinear dissipation. By regulating the drive level, we tune the parametric resonance of a graphene nanodrum over a range of 40-70?MHz to reach successive two-to-one internal resonances, leading to a nearly two-fold increase of the nonlinear damping. Our study opens up a route towards utilizing modal interactions and parametric resonance to realize resonators with engineered nonlinear dissipation over wide frequency range.

SUBMITTER: Keskekler A 

PROVIDER: S-EPMC7889630 | biostudies-literature | 2021 Feb

REPOSITORIES: biostudies-literature

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Tuning nonlinear damping in graphene nanoresonators by parametric-direct internal resonance.

Keşkekler Ata A   Shoshani Oriel O   Lee Martin M   van der Zant Herre S J HSJ   Steeneken Peter G PG   Alijani Farbod F  

Nature communications 20210217 1


Mechanical sources of nonlinear damping play a central role in modern physics, from solid-state physics to thermodynamics. The microscopic theory of mechanical dissipation suggests that nonlinear damping of a resonant mode can be strongly enhanced when it is coupled to a vibration mode that is close to twice its resonance frequency. To date, no experimental evidence of this enhancement has been realized. In this letter, we experimentally show that nanoresonators driven into parametric-direct int  ...[more]

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