A few-layer graphene nanomechanical resonator driven by multifrequency digital signals.
Ce Zhang, Heng Lu, Chen Yang, YuBin Zhang, FengNan Chen, Ying Yan, Joel Moser
Abstract
Open AccessNanomechanical resonators driven by multifrequency signals merge mesoscopic vibration physics with radio communication technologies. Their fundamental property is resonant filtering: they respond only to driving signals with frequency components within their mechanical bandwidth. Compared to single-tone drives, multifrequency drives produce richer dynamics, with all frequency components transduced simultaneously into vibrations of varying amplitudes and phases that superimpose and interfere. Here, we employ a few-layer graphene nanomechanical resonator as a filter for broadband, digitally modulated video signals. We transduce the modulated signals into modulated vibrations and subsequently demodulate these into a nanomechanical video. This approach shows vibrational features that are absent in single-tone or noise-driven responses.