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Optical race-track resonators and one-dimensional photonic crystal cavities are integrated with surface acoustic wave devices on a suspended piezoelectric aluminum nitride film to realize strong, ultrafast sound-light interaction.
Inter-digital transducers and photonic crystal cavities are integrated on a piezoelectric aluminum nitride film sputtered on an oxidized silicon wafer, which leads to the first demonstration of microwave frequency traveling surface acoustic wave induced transparency.
A novel torsional cavity optomechanical system consisting of a nano-seesaw with one photonic crystal cavity on each side has been demonstrated, which exhibits extremely high mechanical sensitivity and can potentially reveal new optomechanical phenomena.
A novel multichannel cavity optomechanical system consisting of a micro-disk resonator and a nano-cantilever has been proposed and implemented, which subsequently led to the first demonstration of optically induced tunable mechanical nonlinearity.
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