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By coupling near-infrared electromagnetic and MHz-frequency flexural resonances one can dramatically enhance the magnitude of actuation and optical response in dynamically reconfigurable nanostructures. We review recent work on metamaterials driven by ponderomotive optical forces at microwatt power levels and by low-intensity acoustic vibrations, which manifest strong opto-mechanical nonlinearity, asymmetry and bistability.
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Kevin F. MacDonald, Jinxiang Li, Dimitrios Papas, Jun-Yu Ou, Eric Plum, Nikolay I. Zheludev, "Nanomechanically nonlinear photonic metamaterials," Proc. SPIE PC12196, Active Photonic Platforms 2022, PC121961S (3 October 2022); https://doi.org/10.1117/12.2633487