Optical wireless information transfer with nonlinear micromechanical resonators.

Wireless transfer of information is the basis of modern communication. It includes cellular, WiFi, Bluetooth, and GPS systems, all of which use electromagnetic radio waves with frequencies ranging from typically 100 MHz to a few GHz. However, several long-standing challenges with standard radio-wave wireless transmission still exist, including keeping secure transmission of data from potential compromise. Here, we demonstrate wireless information transfer using a line-of-sight optical architecture with a micromechanical element. In this fundamentally new approach, a laser beam encoded with information impinges on a nonlinear micromechanical resonator located a distance from the laser.

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www.nature.com/articles/micronano201726

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Micromechanical microphone using sideband modulation of nonlinear resonators

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Temperature Dependence of a Nanomechanical Memory Switch