Metamaterial nanomachines driven by heat, sound, electric and magnetic fields, and light

K. Macdonald, Jinxiang Li, Tongjun Liu, J. Ou, Domitrios Papas, E. Plum, N. Zheludev
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Abstract

We review recent advances in the physics and technology of plasmonic and dielectric nanomechanical metamaterials, wherein optical and mechanical resonances can be coupled to provide a plethora of dynamic photonic functionalities. External electric, magnetic, thermal, acoustic and optical stimuli drive pico/nanometric displacements of the metamaterial building blocks, modulating optical properties at MHz frequencies.
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由热、声、电场、磁场和光驱动的超材料纳米机器
我们回顾了等离子体和电介质纳米机械超材料的物理和技术的最新进展,其中光学和机械共振可以耦合以提供大量的动态光子功能。外部电、磁、热、声和光刺激驱动超材料构件的微/纳米位移,调制兆赫兹频率下的光学特性。
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