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We demonstrate thermo-optomechanical oscillators based on high-Q spherical ZBLAN microcavities and characterize their oscillatory behavior both theoretically and experimentally. We discuss the relevance of the outcomes for sensing applications.
We demonstrate a thermo-optomechanical oscillator based on high-Q optical resonance and study its application in sensing. The unique bifrequency oscillation that carries the signature of local thermo-optic and global thermo-mechanical effects is analyzed and characterized.
We characterize the mass sensing properties of microtoroidal optomechanical oscillator (OMO). We show a record sensitivity slope of 1300 Hz/pg and study the impact of mass distribution, mode selection and noise on mass sensitivity.
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