A Nanomechanical Transducer for Remote Signal Transmission onto the Tympanic Membrane–Playing Music on a Different Drum
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The combination of piezoelectric ceramics with silicon nanomembranes can provide a unique combination of electronic and mechanical functionality. For example, an integrated remotely accessible sensor/actuator can serve as a sound transducer to be placed on the tympanic membrane of the human ear. Such an implant would enable direct sound transmission in the kHz range via down‐conversion of a modulated carrier signal at radio frequency. The viability of this concept is demonstrated via a specific design of the nanomembrane bonded over a hole in the piezoelectric chip as well as driving this chip to create a strong nonlinear mechanical response in the nanomembrane. The response in the audible‐frequency range and the result is demonstrated by modulating the piezoelectric chip with a C‐major audible tune—the tone ladder—and retrieving this sound by an optical readout method are centered. Finally, to prove the possibility of remote actuation of the nanomembrane, an antenna on the chip is integrated and the wide‐band transmission from a mobile source is simulated. It is concluded that a remotely actuated invisible hearing aid is possible.
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SCOTT, Shelley A., Fan YANG, Stefanie HAUGG, Abhishek BHAT, Elke SCHEER, Robert ZIEROLD, Frank FLACK, Max G. LAGALLY, Robert H. BLICK, 2024. A Nanomechanical Transducer for Remote Signal Transmission onto the Tympanic Membrane–Playing Music on a Different Drum. In: Advanced Materials Technologies. Wiley, 2400127. eISSN 2365-709X. Verfügbar unter: doi: 10.1002/admt.202400127BibTex
@article{Scott2024-07-18Nanom-70528, year={2024}, doi={10.1002/admt.202400127}, title={A Nanomechanical Transducer for Remote Signal Transmission onto the Tympanic Membrane–Playing Music on a Different Drum}, journal={Advanced Materials Technologies}, author={Scott, Shelley A. and Yang, Fan and Haugg, Stefanie and Bhat, Abhishek and Scheer, Elke and Zierold, Robert and Flack, Frank and Lagally, Max G. and Blick, Robert H.}, note={Article Number: 2400127} }
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