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Gigahertz optoacoustic vibration in Sub-5 nm tip-supported nano-optomechanical metasurface

Renxian Gao, Yonglin He, Dumeng Zhang, Guoya Sun, Jiaxing He, Jian‐Feng Li, Ming‐De Li, Zhilin Yang

2023Nature Communications17 citationsDOIOpen Access PDF

Abstract

The gigahertz acoustic vibration of nano-optomechanical systems plays an indispensable role in all-optical manipulation of light, quantum control of mechanical modes, on-chip data processing, and optomechanical sensing. However, the high optical, thermal, and mechanical energy losses severely limit the development of nano-optomechanical metasurfaces. Here, we demonstrated a high-quality 5 GHz optoacoustic vibration and ultrafast optomechanical all-optical manipulation in a sub-5 nm tip-supported nano-optomechanical metasurface (TSNOMS). The physical rationale is that the design of the semi-suspended metasurface supported by nanotips of <5 nm enhances the optical energy input into the metasurface and closes the mechanical and thermal output loss channels, result in dramatically improvement of the optomechanical conversion efficiency and oscillation quality of the metasurface. The design strategy of a multichannel-loss-mitigating semi-suspended metasurface can be generalized to performance improvements of on-chip processed nano-optomechanical systems. Applications include all-optical operation of nanomechanical systems, reconfigurable nanophotonic devices, optomechanical sensing, and nonlinear and self-adaptive photonic functionalities.

Topics & Concepts

Nano-Materials scienceOpticsVibrationOptoelectronicsPhysicsNanotechnologyAcousticsComposite materialMechanical and Optical ResonatorsAdvanced MEMS and NEMS TechnologiesPhotoacoustic and Ultrasonic Imaging
Gigahertz optoacoustic vibration in Sub-5 nm tip-supported nano-optomechanical metasurface | Litcius