Applied Physics Express (Jan 2024)

Higher-order resonance of single-crystal diamond cantilever sensors toward high f‧Q products

  • Guo Chen,
  • Zilong Zhang,
  • Keyun Gu,
  • Liwen Sang,
  • Satoshi Koizumi,
  • Masaya Toda,
  • Haitao Ye,
  • Yasuo Koide,
  • Zhaohui Huang,
  • Meiyong Liao

DOI
https://doi.org/10.35848/1882-0786/ad2027
Journal volume & issue
Vol. 17, no. 2
p. 021001

Abstract

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MEMS resonant sensing devices require both HF ( f ) and low dissipation or high quality factor ( Q ) to ensure high sensitivity and high speed. In this study, we investigate the resonance properties and energy loss in the first three resonance modes, resulting in a significant increase in f‧Q product at higher orders. The third order resonance exhibits an approximately 15-fold increase in f‧Q product, while the Q factor remains nearly constant. Consequently, we achieved an ultrahigh f‧Q product exceeding 10 ^12 Hz by higher-order resonances in single-crystal diamond cantilevers.

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