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Real-Time Sensing with Multiplexed Optomechanical Resonators.

Fabrice-Roland LambertiUjwol PalanchokeThijs Peter Joseph GeurtsMarc GelySébastien RegordLouise BanniardMarc SansaIvan FaveroGuillaume JourdanSébastien Hentz
Published in: Nano letters (2022)
Nanoelectromechanical resonators have been successfully used for a variety of sensing applications. Their extreme resolution comes from their small size, which strongly limits their capture area. This leads to a long analysis time and the requirement for large sample quantity. Moreover, the efficiency of the electrical transductions commonly used for silicon resonators degrades with increasing frequency, limiting the achievable mechanical bandwidth and throughput. Multiplexing a large number of high-frequency resonators appears to be a solution, but this is complex with electrical transductions. We propose here a route to solve these issues, with a multiplexing scheme for very high-frequency optomechanical resonators. We demonstrate the simultaneous frequency measurement of three silicon microdisks fabricated with a 200 mm wafer large-scale process. The readout architecture is simple and does not degrade the sensing resolutions. This paves the way toward the realization of sensors for multiparametric analysis with an extremely low limit of detection and response time.
Keyphrases
  • high frequency
  • transcranial magnetic stimulation
  • climate change
  • quantum dots
  • real time pcr